Department of Defense Directed Energy Weapons: Background and Issues for Congress

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Department of Defense Directed Energy
~~August 22, 2023~~July 11, 2024
Weapons: Background and Issues for Congress Kelley M. Sayler,
Directed energy (DE) weapons use concentrated electromagnetic energy, rather than kinetic Directed energy (DE) weapons use concentrated electromagnetic energy, rather than kinetic
Coordinator
energy, to combat enemy forces. Although the United States has been researching directed energy, to combat enemy forces. Although the United States has been researching directed
Specialist in Advanced Specialist in Advanced
energy since the 1960s, some experts have observed that the Department of Defense (DOD) has energy since the 1960s, some experts have observed that the Department of Defense (DOD) has
Technology and Global Technology and Global
invested billions of dollars in DE programs that failed to reach maturity and were ultimately invested billions of dollars in DE programs that failed to reach maturity and were ultimately
Security Security
cancelled. In recent years, however, DOD has made progress on DE weapons development, cancelled. In recent years, however, DOD has made progress on DE weapons development,

deploying the first operational U.S. DE weapon in 2014 aboard the USS deploying the first operational U.S. DE weapon in 2014 aboard the USS Ponce. Since then, DE . Since then, DE
~~Andrew Feickert~~Jennifer DiMascio
weapons development has continued, with DOD issuing a Directed Energy Roadmap to weapons development has continued, with DOD issuing a Directed Energy Roadmap to
~~Specialist in Military~~Analyst in U.S. Defense
coordinate the department’s efforts. DOD has also introduced a High Energy Laser Scaling coordinate the department’s efforts. DOD has also introduced a High Energy Laser Scaling
~~Ground Forces~~Policy
Initiative, which seeks to strengthen the defense industrial base for DE weapons and improve Initiative, which seeks to strengthen the defense industrial base for DE weapons and improve

laser beam quality and efficiency. laser beam quality and efficiency.
~~Ronald O'Rourke~~Andrew Feickert
Specialist in Specialist in ~~Naval Affairs~~Military
This report provides background information and issues for Congress on DE weapons, including This report provides background information and issues for Congress on DE weapons, including

Ground Forces high-energy lasers (HELs) and high-powered microwave (HPM) weapons, and outlines selected high-energy lasers (HELs) and high-powered microwave (HPM) weapons, and outlines selected
unclassified DOD, Air Force, Army, and Navy DE programs. If successfully fielded, HELs could unclassified DOD, Air Force, Army, and Navy DE programs. If successfully fielded, HELs could

be used by ground forces in a range of missions, including short-range air defense (SHORAD); be used by ground forces in a range of missions, including short-range air defense (SHORAD);
Ronald O'Rourke counter-unmanned aircraft systems (C-UAS); and counter-rocket, artillery, and mortar (C-RAM) counter-unmanned aircraft systems (C-UAS); and counter-rocket, artillery, and mortar (C-RAM) Specialist in Naval Affairs missions. HPM weapons missions. HPM weapons
could provide a nonkinetic means of disabling adversary electronics and could provide a nonkinetic means of disabling adversary electronics and communications systems. Compared with traditional communications systems. Compared with traditional
munitions, DE weapons could offer lower logistical requirements, lower costs per shot, and—assuming access to a sufficient munitions, DE weapons could offer lower logistical requirements, lower costs per shot, and—assuming access to a sufficient
power power supply—deeper magazines. These weapons could, however, face limitations not faced by their kinetic counterparts. supply—deeper magazines. These weapons could, however, face limitations not faced by their kinetic counterparts.
For example, atmospheric conditions (e.g., rain, fog, obscurants) could potentially limit the range and beam quality of DE For example, atmospheric conditions (e.g., rain, fog, obscurants) could potentially limit the range and beam quality of DE
weapons, in turn reducing their effectiveness. weapons, in turn reducing their effectiveness.
As DOD continues to invest in DE weapons, Congress may consider the weapons’ technological maturity, lifecycle cost, As DOD continues to invest in DE weapons, Congress may consider the weapons’ technological maturity, lifecycle cost,
characteristics, mission utility, industrial base, intelligence requirements, and oversight structure. Congress may also consider characteristics, mission utility, industrial base, intelligence requirements, and oversight structure. Congress may also consider
the implications of DE weapons for future arms control agreements. the implications of DE weapons for future arms control agreements.

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~~Appendixes~~
~~Appendix A. Potential Advantages and Limitations of Directed Energy Weapons ....................... 20~~Tables Table B-1. Funding for Directed Energy Programs (FY2023-FY2025) ........................................ 23 Appendixes Appendix A. Potential Advantages and Limitations of Directed Energy Weapons ....................... 20 Appendix B. Funding for Directed Energy Programs ................................................................... 23

Contacts
Author Information ........................................................................................................................ 23

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Department of Defense Directed Energy Weapons: Background and Issues for Congress

Introduction
This report provides background information and issues for Congress on Department of Defense This report provides background information and issues for Congress on Department of Defense
(DOD) efforts to develop and procure directed energy (DE) weapons. The report provides an (DOD) efforts to develop and procure directed energy (DE) weapons. The report provides an
overview of certain DOD, Air Force, Army, and Navy DE programs. Two other CRS reports overview of certain DOD, Air Force, Army, and Navy DE programs. Two other CRS reports
provide additional discussion of Army and Navy DE programs.1 Some types of DE weapons, such provide additional discussion of Army and Navy DE programs.1 Some types of DE weapons, such
as particle-beam weapons, are outside the scope of this report. as particle-beam weapons, are outside the scope of this report.
DOD’s efforts on DE weapons pose a number of potential issues for Congress. Decisions that DOD’s efforts on DE weapons pose a number of potential issues for Congress. Decisions that
Congress makes on these issues could have substantial implications for future DOD capabilities Congress makes on these issues could have substantial implications for future DOD capabilities
and funding requirements and the U.S. defense industrial base. and funding requirements and the U.S. defense industrial base.
Overview of Directed Energy Weapons2
DOD defines directed energy weapons as those using concentrated electromagnetic energy, rather DOD defines directed energy weapons as those using concentrated electromagnetic energy, rather
than kinetic energy, to “incapacitate, damage, disable, or destroy enemy equipment, facilities, than kinetic energy, to “incapacitate, damage, disable, or destroy enemy equipment, facilities,
and/or personnel.”3 DE weapons include high-energy laser (HEL) and high-powered microwave and/or personnel.”3 DE weapons include high-energy laser (HEL) and high-powered microwave
(HPM) weapons. (HPM) weapons.
HEL weapons might be used by ground forces in various missions, including short-range air HEL weapons might be used by ground forces in various missions, including short-range air
defense (SHORAD); counter-unmanned aircraft systems (C-UAS); and counter-rocket, artillery, defense (SHORAD); counter-unmanned aircraft systems (C-UAS); and counter-rocket, artillery,
and mortar (C-RAM) missions.4 The weapons might be used to “dazzle” (i.e., temporarily and mortar (C-RAM) missions.4 The weapons might be used to “dazzle” (i.e., temporarily
disable) or damage satellites and sensors. This could in turn interfere with intelligence-gathering disable) or damage satellites and sensors. This could in turn interfere with intelligence-gathering
operations; military communications; and positioning, navigation, and timing systems used for operations; military communications; and positioning, navigation, and timing systems used for
weapons targeting. In addition, HEL weapons could theoretically provide options for boost-phase weapons targeting. In addition, HEL weapons could theoretically provide options for boost-phase
missile intercept, given their speed-of-light travel time; however, experts disagree on the missile intercept, given their speed-of-light travel time; however, experts disagree on the
affordability, technological feasibility, and utility of this application.5 affordability, technological feasibility, and utility of this application.5
In general, HEL weapons might offer lower logistical requirements, lower costs per shot, and— In general, HEL weapons might offer lower logistical requirements, lower costs per shot, and—
assuming access to a sufficient power supply—deeper magazines compared with traditional assuming access to a sufficient power supply—deeper magazines compared with traditional
munitions. (Although a number of different types of HELs exist, many of the United States’ munitions. (Although a number of different types of HELs exist, many of the United States’
current programs are solid state lasers, which are fueled by electrical power. As a result, the cost current programs are solid state lasers, which are fueled by electrical power. As a result, the cost
per shot would be equivalent to the cost of the electrical power required to fire the shot.per shot would be equivalent to the cost of the electrical power required to fire the shot.)66) These These

1 See CRS Report R45098, 1 See CRS Report R45098, U.S. Army Weapons-Related Directed Energy (DE) Programs: Background and Potential
Issues for Congress, by Andrew Feickert, and CRS Report R44175, , by Andrew Feickert, and CRS Report R44175, Navy Shipboard Lasers: Background and Issues
for Congress, by Ronald O'Rourke. , by Ronald O'Rourke.
2 This section was written by Kelley M. Sayler, CRS Specialist in Advanced Technology and Global Security. For 2 This section was written by Kelley M. Sayler, CRS Specialist in Advanced Technology and Global Security. For
more information—including information about DE weapons programs in China and Russia—see CRS Report R46458, more information—including information about DE weapons programs in China and Russia—see CRS Report R46458,
Emerging Military Technologies: Background and Issues for Congress, by Kelley M. Sayler. , by Kelley M. Sayler.
3 Joint Chiefs of Staff, 3 Joint Chiefs of Staff, Joint Electromagnetic Spectrum Operations, Joint Publication 3-85, May 22, 2020, p. GL-6. , May 22, 2020, p. GL-6.
4 For more information about the role of DE weapons in C-UAS missions, see CRS In Focus IF11426, 4 For more information about the role of DE weapons in C-UAS missions, see CRS In Focus IF11426, Department of
Defense Counter-Unmanned Aircraft Systems, by John R. Hoehn and Kelley M. Sayler. , by John R. Hoehn and Kelley M. Sayler.
5 See, for example, James N. Miller and Frank A. Rose, “Bad Idea: Space-Based Interceptors and Space-Based 5 See, for example, James N. Miller and Frank A. Rose, “Bad Idea: Space-Based Interceptors and Space-Based
Directed Energy Systems,” Center for Strategic and International Studies, December 13, 2018, at Directed Energy Systems,” Center for Strategic and International Studies, December 13, 2018, at
https://defense360.csis.org/bad-idea-space-based-interceptors-and-space-based-directed energy-systems/; and Justin https://defense360.csis.org/bad-idea-space-based-interceptors-and-space-based-directed energy-systems/; and Justin
Doubleday, “Pentagon punts MDA’s laser ambitions, shifts funding toward OSD-led ‘laser scaling,’” Doubleday, “Pentagon punts MDA’s laser ambitions, shifts funding toward OSD-led ‘laser scaling,’” Inside Defense, ,
February 19, 2020, at https://insidedefense.com/daily-news/pentagon-punts-mdas-laser-ambitions-shifts-funding-February 19, 2020, at https://insidedefense.com/daily-news/pentagon-punts-mdas-laser-ambitions-shifts-funding-
toward-osd-led-laser-scaling. toward-osd-led-laser-scaling.
6 Ariel Robinson, “Directed Energy Weapons: Will They Ever Be Ready?,” 6 Ariel Robinson, “Directed Energy Weapons: Will They Ever Be Ready?,” National Defense, July 1, 2015, at , July 1, 2015, at
https://www.nationaldefensemagazine.org/articles/2015/7/1/2015july-directedhttps://www.nationaldefensemagazine.org/articles/2015/7/1/2015july-directed -energy-weapons-will-they-ever-be-energy-weapons-will-they-ever-be-
ready.ready.
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Department of Defense Directed Energy Weapons: Background and Issues for Congress

characteristics could in turn produce a favorable cost-exchange ratio for a defender, whose characteristics could in turn produce a favorable cost-exchange ratio for a defender, whose
marginal costs would be significantly lower than those of an aggressor. marginal costs would be significantly lower than those of an aggressor.
Similarly, HPM weapons could provide a nonkinetic means of disabling adversary electronics and Similarly, HPM weapons could provide a nonkinetic means of disabling adversary electronics and
communications systems. These weapons could potentially generate effects over wider areas—communications systems. These weapons could potentially generate effects over wider areas—
disabling any electronics within their electromagnetic cone—than HEL weapons, which emit a disabling any electronics within their electromagnetic cone—than HEL weapons, which emit a
narrower beam of energy (seenarrower beam of energy (see Figure 1). Some analysts have noted that HPM weapons might . Some analysts have noted that HPM weapons might
provide more effective area defense against missile salvos and swarms of unmanned aircraft provide more effective area defense against missile salvos and swarms of unmanned aircraft
systems. HPM weapons in an anti-personnel configuration might provide a means of nonlethal systems. HPM weapons in an anti-personnel configuration might provide a means of nonlethal
crowd control, perimeter defense, or patrol or convoy protection.7 Potential advantages and crowd control, perimeter defense, or patrol or convoy protection.7 Potential advantages and
limitations of both HEL and HPM weapons are discussed in greater detail inlimitations of both HEL and HPM weapons are discussed in greater detail in Appendix A.
Figure 1. Illustrative Effects of HELs Versus HPM Weapons

Source: CRS image based on an image in Mark Gunzinger and Chris Dougherty, CRS image based on an image in Mark Gunzinger and Chris Dougherty, Changing the Game: The Promise
of Directed-Energy Weapons, Center for Strategic and Budgetary Assessments, April 19, 2021, p. 40, at , Center for Strategic and Budgetary Assessments, April 19, 2021, p. 40, at
https://csbaonline.org/uploads/documents/CSBA_ChangingTheGame_ereader.pdf. https://csbaonline.org/uploads/documents/CSBA_ChangingTheGame_ereader.pdf.
Note: Units of measurement are il ustrative. Units of measurement are il ustrative.
Selected Defense-Wide Directed Energy Programs8
DOD directed energy programs are coordinated by the Principal Director for Directed Energy DOD directed energy programs are coordinated by the Principal Director for Directed Energy
within the Office of the Under Secretary of Defense for Research and Engineering within the Office of the Under Secretary of Defense for Research and Engineering
(OUSD[R&E]). The Principal Director for Directed Energy is responsible for development and (OUSD[R&E]). The Principal Director for Directed Energy is responsible for development and
oversight of the Directed Energy Roadmap, which articulates DOD’s objective of “[achieving] oversight of the Directed Energy Roadmap, which articulates DOD’s objective of “[achieving]
dominance in DE military applications in every mission and domain where they give advantage.”9 dominance in DE military applications in every mission and domain where they give advantage.”9
According to OUSD(R&E), the current roadmap outlines DOD’s plans to increase power levels According to OUSD(R&E), the current roadmap outlines DOD’s plans to increase power levels
of HEL weapons from around 150 kilowatt (kW), as is currently feasible, to of HEL weapons from around 150 kilowatt (kW), as is currently feasible, to ~~around 300 kW by~~
~~FY2023, “with goal milestones to achieve 500 kW class~~ 500 kW class—with reduced size and weightwith reduced size and weight —by FY2025by FY2025
~~and~~ .10 DOD seeks “to further reduce size and weight and to further reduce size and weight and ~~increase power to MW [megawatt] levels by~~

7 See, for example, Joint Intermediate Force Capabilities Office, “Active Denial System FAQs,” 7 See, for example, Joint Intermediate Force Capabilities Office, “Active Denial System FAQs,”
https://jnlwp.defense.gov/About/Frequently-Asked-Questions/Active-Denial-System-FAQs/. https://jnlwp.defense.gov/About/Frequently-Asked-Questions/Active-Denial-System-FAQs/.
8 This section was written by Kelley M. Sayler, CRS Analyst in Advanced Technology and Global Security. 8 This section was written by Kelley M. Sayler, CRS Analyst in Advanced Technology and Global Security.
9 Dr. Jim Trebes, “Advancing High Energy Laser Weapon Capabilities: What is OUSD (R&E) Doing?,” presentation at 9 Dr. Jim Trebes, “Advancing High Energy Laser Weapon Capabilities: What is OUSD (R&E) Doing?,” presentation at
the Institute for Defense and Government Advancement (IDGA), October 21, 2020. the Institute for Defense and Government Advancement (IDGA), October 21, 2020.
10 CRS correspondence with the Office of the Under Secretary of Defense for Research and Engineering, September 8, 2022. Kilowatts and megawatts are units of power. For example, 1 kilowatt is equal to 1,000 watts, and 1 megawatt is equal to 1 million watts. Congressional Research Service Congressional Research Service

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increase power to MW [megawatt] levels by FY2026.”11~~FY2026.”10~~ For reference, although no consensus exists regarding the precise power level that For reference, although no consensus exists regarding the precise power level that
would be needed to neutralize different target sets, DOD briefing documents (seewould be needed to neutralize different target sets, DOD briefing documents (see Figure 2)
suggest that a laser of approximately 100 kW could engage UASs, rockets, artillery, and mortars, suggest that a laser of approximately 100 kW could engage UASs, rockets, artillery, and mortars,
whereas a laser of around 300 kW could additionally engage small boats and cruise missiles whereas a laser of around 300 kW could additionally engage small boats and cruise missiles
flying in certain profiles (i.e., flying across—rather than at—the laser).flying in certain profiles (i.e., flying across—rather than at—the laser).1112 Lasers of 1 MW could Lasers of 1 MW could
potentially neutralize ballistic missiles and hypersonic weapons.potentially neutralize ballistic missiles and hypersonic weapons.1213
Figure 2. Summary of DOD Directed Energy Roadmap

Source: Dr. Jim Trebes, “Advancing High Energy Laser Weapon Capabilities: What is OUSD (R&E) Doing?,” Dr. Jim Trebes, “Advancing High Energy Laser Weapon Capabilities: What is OUSD (R&E) Doing?,”
presentation at the Institute for Defense and Government Advancement (IDGA), October 21, 2020. presentation at the Institute for Defense and Government Advancement (IDGA), October 21, 2020.
In addition to managing the DE roadmap, OUSD(R&E) manages the High Energy Laser Scaling In addition to managing the DE roadmap, OUSD(R&E) manages the High Energy Laser Scaling
Initiative (HELSI), which seeks “to demonstrate laser output power scaling while maintaining or Initiative (HELSI), which seeks “to demonstrate laser output power scaling while maintaining or
improving beam quality and efficiency.”improving beam quality and efficiency.”1314 HELSI is intended to strengthen the defense industrial HELSI is intended to strengthen the defense industrial
base for potential future DE weapons by providing near-term prototyping opportunities for base for potential future DE weapons by providing near-term prototyping opportunities for
industry partners.industry partners.1415 OUSD(R&E) has completed a DOD-wide Laser Lethality Analysis Process OUSD(R&E) has completed a DOD-wide Laser Lethality Analysis Process
Review to identify future needs for the department and best practices for DE development and Review to identify future needs for the department and best practices for DE development and
use. In addition, OUSD(R&E) is developing use. In addition, OUSD(R&E) is developing ~~a Directed Energy Lethality Database, a searchable~~
~~repository~~laser and HPM lethality databases, searchable repositories for DOD’s DE analyses. for DOD’s DE analyses.15

~~10 CRS correspondence with the Office of the Under Secretary of Defense for Research and Engineering, September 8,~~
~~2022. Kilowatts and megawatts are units of power. For example, 1 kilowatt is equal to 1,000 watts, and 1 megawatt is~~
~~equal to 1 million watts.~~
1116 11 Ibid. 12 Dr. Jim Trebes, “Advancing High Energy Laser Weapon Capabilities: What is OUSD (R&E) Doing?,” presentation Dr. Jim Trebes, “Advancing High Energy Laser Weapon Capabilities: What is OUSD (R&E) Doing?,” presentation
at IDGA, October 21, 2020; and CRS conversation with Principal Director for Directed Energy Modernization Dr. Jim at IDGA, October 21, 2020; and CRS conversation with Principal Director for Directed Energy Modernization Dr. Jim
Trebes, November 17, 2020. Required power levels could be affected by additional factors such as adversary Trebes, November 17, 2020. Required power levels could be affected by additional factors such as adversary
countermeasures and atmospheric conditions and effects. countermeasures and atmospheric conditions and effects.
1213 Dr. Jim Trebes, “Advancing High Energy Laser Weapon Capabilities: What is OUSD (R&E) Doing?,” presentation Dr. Jim Trebes, “Advancing High Energy Laser Weapon Capabilities: What is OUSD (R&E) Doing?,” presentation
at IDGA, October 21, 2020. at IDGA, October 21, 2020.
1314 Dr. Jim Trebes, “Advancing High Energy Laser Weapon Capabilities: What is OUSD (R&E) Doing?,” presentation Dr. Jim Trebes, “Advancing High Energy Laser Weapon Capabilities: What is OUSD (R&E) Doing?,” presentation
at IDGA, October 21, 2020. at IDGA, October 21, 2020.
1415 Industry participants in HELSI include nLight-Nutronics (sponsored by the Navy), Lockheed Martin (sponsored by Industry participants in HELSI include nLight-Nutronics (sponsored by the Navy), Lockheed Martin (sponsored by
the Army), General Atomics (sponsored by the Air Force), and Northrop Grumman. Nancy Jones-Bonbrest, “Scaling the Army), General Atomics (sponsored by the Air Force), and Northrop Grumman. Nancy Jones-Bonbrest, “Scaling
Up: Army Advances 300kW-class Laser Prototype,” Army Rapid Capabilities and Critical Technologies Office, March Up: Army Advances 300kW-class Laser Prototype,” Army Rapid Capabilities and Critical Technologies Office, March
3, 2020, at https://www.army.mil/article/233346/scaling_up_army_advances_300kw_class_laser_prototype; and CRS 3, 2020, at https://www.army.mil/article/233346/scaling_up_army_advances_300kw_class_laser_prototype; and CRS
conversation with Principal Director for Directed Energy Dr. Frank Peterkin, May 17, 2023. conversation with Principal Director for Directed Energy Dr. Frank Peterkin, May 17, 2023.
~~15 The~~ 16 The laser lethality database has been populated with database has been populated with ~~limited~~ data and is being updated based on user feedbackdata and is being updated based on user feedback~~. OUSD(R&E) plans~~, while the HPM laser database is under development. OUSD(R&E) plans to transition the laser database to the Director,
(continued...) (continued...)
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In support of these initiatives, DOD maintains a number of research programs, including In support of these initiatives, DOD maintains a number of research programs, including
programs at the Missile Defense Agency (MDA), the Office of the Secretary of Defense (OSD), programs at the Missile Defense Agency (MDA), the Office of the Secretary of Defense (OSD),
and the Defense Advanced Projects Research Agency (DARPA). For example, MDA’s Directed and the Defense Advanced Projects Research Agency (DARPA). For example, MDA’s Directed
Energy Demonstrator Development program addresses “technology risk reduction and maturation Energy Demonstrator Development program addresses “technology risk reduction and maturation
for high powered strategic lasers, beam control, lethality, and related technologies” in support of for high powered strategic lasers, beam control, lethality, and related technologies” in support of
OUSD(R&E)’s Directed Energy Roadmap.OUSD(R&E)’s Directed Energy Roadmap.1617 The program received $42 million in FY2021. The program received $42 million in FY2021.
Although MDA did not request funding for the program in FY2022 or FY2023 “due to a shift in Although MDA did not request funding for the program in FY2022 or FY2023 “due to a shift in
Department of Defense priorities,” Congress appropriated $39 million and $16 million, Department of Defense priorities,” Congress appropriated $39 million and $16 million,
respectively, to continue development efforts.respectively, to continue development efforts.1718 MDA did not request funds for the Directed MDA did not request funds for the Directed
Energy Demonstrator Development program in FY2024Energy Demonstrator Development program in FY2024~~.18~~
~~In FY2024~~ or FY2025.19 In FY2025, OSD requested $16, OSD requested $16.5 million for High Energy Laser Research Initiatives, including million for High Energy Laser Research Initiatives, including
basic research and educational grants, and $basic research and educational grants, and $4948.6 million for High Energy Laser Development, million for High Energy Laser Development,
which funds applied research.which funds applied research.1920 OSD additionally requested $ OSD additionally requested $~~112~~110.4 million in million in ~~FY2024~~FY2025 for High for High
Energy Laser Advanced Development, which is focused on “scaling the output power of Energy Laser Advanced Development, which is focused on “scaling the output power of DE
directed energy weapon systems to reach operationally effective power levels applicable to broad mission areas across the systems to reach operationally effective power levels applicable to broad mission areas across the
~~DOD.”20~~[DOD].”21 OSD requested $10 million in OSD requested $10 million in ~~FY2024~~FY2025 to continue assessments of directed energy to continue assessments of directed energy
weapons, including assessments of the weapons’ effects, effectiveness, and limitations.weapons, including assessments of the weapons’ effects, effectiveness, and limitations.2122 Finally, Finally,
DARPA’s Waveform Agile Radio-frequency Directed Energy (WARDEN) program seeks to DARPA’s Waveform Agile Radio-frequency Directed Energy (WARDEN) program seeks to
“extend the range and lethality of high power microwave weapons ... [for] “extend the range and lethality of high power microwave weapons ... [for] ~~counter-unmanned~~
~~aerial systems, vehicle and vessel disruption, electronic strike, and guided missile defense.”22~~

~~to have an updated version of the database available in FY2023.~~ Operational Test & Evaluation (DOT&E) in early FY2025. The HPM database is expected to transition to DOT&E later in FY2025. Both databases are intended to serve as “analysts’ tools to support more rapid target vulnerability package development for the Services (engagement/mission level studies, DE weapon system performance assessments, etc.).” CRS correspondence with Distinguished Scientist for CRS correspondence with Distinguished Scientist for
Laser Weapon Systems Lethality Dr. Christopher Lloyd, Laser Weapon Systems Lethality Dr. Christopher Lloyd, ~~August 29, 2022.~~
16June 27, 2024. 17 DOD, DOD, Department of Defense Fiscal Year (FY) 2023 Budget Estimates, Missile Defense Agency, Defense-Wide
Justification Book Volume 2a of 5 Research, Development, Test & Evaluation, Defense-Wide, pp. 601-603, at , pp. 601-603, at
https://comptroller.defense.gov/Portals/45/Documents/defbudget/fy2023/budget_justification/pdfs/03_RDT_and_E/https://comptroller.defense.gov/Portals/45/Documents/defbudget/fy2023/budget_justification/pdfs/03_RDT_and_E/
RDTE_Vol2_MDA_RDTE_PB23_Justification_Book.pdf. RDTE_Vol2_MDA_RDTE_PB23_Justification_Book.pdf.
1718 DOD, DOD, Department of Defense Fiscal Year (FY) 2024 Budget Estimates, Missile Defense Agency, Defense-Wide
Justification Book Volume 2a of 5 Research, Development, Test & Evaluation, Defense-Wide, , ppp. 605, at . 605, at
https://comptroller.defense.gov/Portals/45/Documents/defbudget/fy2024/budget_justification/pdfs/03_RDT_and_E/RDhttps://comptroller.defense.gov/Portals/45/Documents/defbudget/fy2024/budget_justification/pdfs/03_RDT_and_E/RD
TE_Vol2_MDA_RDTE_PB24_Justification_Book.pdf. TE_Vol2_MDA_RDTE_PB24_Justification_Book.pdf.
1819 DOD, DOD, Department of Defense Fiscal Year (FY) ~~2024~~2025 Budget Estimates, Missile Defense Agency, Defense-Wide
Justification Book Volume 2a of 5 Research, Development, Test & Evaluation, Defense-Wide, , ~~pp. 605~~p. xliii, at , at
https://comptroller.defense.gov/Portals/45/Documents/defbudget/https://comptroller.defense.gov/Portals/45/Documents/defbudget/~~fy2024~~FY2025/budget_justification/pdfs/03_RDT_and_E//budget_justification/pdfs/03_RDT_and_E/RD
~~TE_Vol2_MDA_RDTE_PB24_Justification_Book.pdf.~~
19RDTE_Vol2_MDA_RDTE_PB25_Justification_Book.pdf. 20 DOD, DOD, Department of Defense Fiscal Year (FY) ~~2024~~2025 Budget Estimates, Office of the Secretary of Defense, Defense-
Wide Justification Book Volume 3 of 5 Research, Development, Test & Evaluation, , pp. 1 and 93, at at
https://comptroller.defense.gov/Portals/45/Documents/defbudget/https://comptroller.defense.gov/Portals/45/Documents/defbudget/~~fy2024~~FY2025/budget_justification/pdfs/03_RDT_and_E//budget_justification/pdfs/03_RDT_and_E/OS
~~D_PB2024~~RDTE_OSD_PB_2025.pdf. These programs were transferred to OSD from the Air Force to “better align [the] research area to .pdf. These programs were transferred to OSD from the Air Force to “better align [the] research area to
Department of Defense Science and Technology strategy and priorities for Directed Energy.” This transfer could reflect Department of Defense Science and Technology strategy and priorities for Directed Energy.” This transfer could reflect
greater coordination across DOD DE programs. DOD, greater coordination across DOD DE programs. DOD, Department of Defense Fiscal Year (FY) 2022 Budget Estimates,
Office of the Secretary of Defense, Defense-Wide Justification Book Volume 3 of 5 Research, Development, Test &
Evaluation, , ~~pp. 1 and~~ p. 79, at https://comptroller.defense.gov/Portals/45/Documents/defbudget/fy2022/79, at https://comptroller.defense.gov/Portals/45/Documents/defbudget/fy2022/
budget_justification/pdfs/03_RDT_and_E/RDTE_Vol3_OSD_RDTE_PB22_Justification_Book.pdf. budget_justification/pdfs/03_RDT_and_E/RDTE_Vol3_OSD_RDTE_PB22_Justification_Book.pdf.
2021 DOD, DOD, Department of Defense Fiscal Year (FY) ~~2024~~2025 Budget Estimates, Office of the Secretary of Defense, Defense-
Wide Justification Book Volume 3 of 5 Research, Development, Test & Evaluation, p. , p. ~~371~~355, at , at
https://comptroller.defense.gov/Portals/45/Documents/defbudget/https://comptroller.defense.gov/Portals/45/Documents/defbudget/~~fy2024~~FY2025/budget_justification/pdfs/03_RDT_and_E//budget_justification/pdfs/03_RDT_and_E/OS
~~D_PB2024.pdf.~~
21RDTE_OSD_PB_2025.pdf. 22 DOD, DOD, Department of Defense Fiscal Year (FY) ~~2024~~2025 Budget Estimates, Office of the Secretary of Defense, Defense-
Wide Justification Book Volume 3 of 5 Research, Development, Test & Evaluation, p. , p. ~~393~~376, at , at
https://comptroller.defense.gov/Portals/45/Documents/defbudget/https://comptroller.defense.gov/Portals/45/Documents/defbudget/~~fy2024~~FY2025/budget_justification/pdfs/03_RDT_and_E//budget_justification/pdfs/03_RDT_and_E/OS
~~D_PB2024~~RDTE_OSD_PB_2025.pdf. ~~.pdf.~~
~~22 DOD,~~ ~~Department of Defense Fiscal Year (FY) 2023 Budget Estimates, Defense Advanced Research Projects~~
~~(continued...)~~
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counter-unmanned aerial systems, vehicle and vessel disruption, electronic strike, and guided missile defense.”23 DARPA received $20 million for WARDEN in DARPA received $20 million for WARDEN in ~~FY2023~~FY2024 and requested $ and requested $20 8 million for the million for the
program in program in ~~FY2024.23~~FY2025.24
Overall, DOD requested Overall, DOD requested ~~approximately $1 billion~~$789.7 million for directed energy weapons programs in for directed energy weapons programs in
~~FY2024.24~~
FY2025, down from its $962.4 million request and $1.1 billion appropriation in FY2024.25 For a breakout of funding by military department, see Appendix A. Selected Air Force Directed Energy
Weapons ~~Programs25~~Programs26
The Air Force is developing and testing a number of DE technologies through the Directed The Air Force is developing and testing a number of DE technologies through the Directed
Energy Directorate of the Air Force Research Laboratory (AFRL). The following section provides Energy Directorate of the Air Force Research Laboratory (AFRL). The following section provides
a brief description of selected unclassifieda brief description of selected unclassified efforts. efforts.
Tactical High-Power Operational Responder (THOR)
The Tactical High-Power Microwave Operational Responder (THOR) technology demonstrator The Tactical High-Power Microwave Operational Responder (THOR) technology demonstrator
(see(see Figure 3), designed by AFRL in collaboration with industry partners, is intended to provide a , designed by AFRL in collaboration with industry partners, is intended to provide a
viable DE C-UAS weapon system focused on short-range air base defense.viable DE C-UAS weapon system focused on short-range air base defense.2627 THOR is housed in THOR is housed in
a standardized 20-foot transport container that enables it to fit inside a C-130 transport aircraft. a standardized 20-foot transport container that enables it to fit inside a C-130 transport aircraft.
Users reportedly can deploy the system in three hours and operate its user interface with only Users reportedly can deploy the system in three hours and operate its user interface with only
rudimentary training.rudimentary training.2728 According to Air Force press releases, THOR has successfully completed According to Air Force press releases, THOR has successfully completed
a two-year test period anda two-year test period and ~~is to inform~~ , in 2023, engaged a swarm of multiple targets. 29 THOR has informed follow-on prototype efforts such as Mjölnir.follow-on prototype efforts such as Mjölnir.2830 23 DOD, Department of Defense Fiscal Year (FY) 2023 Budget Estimates, Defense Advanced Research Projects

Agency, Defense-Wide Justification Book Volume 1 of 5 Research, Development, Test & Evaluation, p. 145, at , p. 145, at
https://comptroller.defense.gov/Portals/45/Documents/defbudget/fy2023/budget_justification/pdfs/03_RDT_and_E/https://comptroller.defense.gov/Portals/45/Documents/defbudget/fy2023/budget_justification/pdfs/03_RDT_and_E/
RDTE_Vol1_DARPA_MasterJustificationBook_PB_2023.pdf. RDTE_Vol1_DARPA_MasterJustificationBook_PB_2023.pdf.
2324 DOD, DOD, Department of Defense Fiscal Year (FY) ~~2024~~2025 Budget Estimates, Defense Advanced Research Projects
Agency, Defense-Wide Justification Book Volume 1 of 5 Research, Development, Test & Evaluation, p. , p. ~~140~~128, at , at
https://comptroller.defense.gov/Portals/45/Documents/defbudget/https://comptroller.defense.gov/Portals/45/Documents/defbudget/~~fy2024~~FY2025/budget_justification/pdfs/03_RDT_and_E//budget_justification/pdfs/03_RDT_and_E/RD
~~TE_Vol1_DARPA_MasterJustificationBook_PB_2024.pdf.~~
~~24 CRS conversation with Principal Director for Directed Energy Dr. Frank Peterkin, May 17, 2023. See also~~
~~Government Accountability Office, Directed Energy Weapons: DOD Should Focus Transition on Planning, April~~
~~2023, p. 1.~~
25RDTE_Vol1_DARPA_MasterJustificationBook_PB_2025.pdf. 25 CRS correspondence with the Office of the Under Secretary of Defense for Research and Engineering, April 30, 2024. 26 This section was written by former CRS Research Assistant Samuel D. Ryder and former CRS Analyst in Military This section was written by former CRS Research Assistant Samuel D. Ryder and former CRS Analyst in Military
Capabilities and Programs John R. HoehnCapabilities and Programs John R. Hoehn. It has been updated by CRS Analyst in U.S. Defense Policy Jennifer DiMascio. 27.
26 Industry partners include BAE Systems, Leidos, and Verus Research. THOR also features a proprietary radar system Industry partners include BAE Systems, Leidos, and Verus Research. THOR also features a proprietary radar system
developed by Black Sage. developed by Black Sage.
2728 Bryan Ripple, “Enemy drone operators may soon face the power of THOR,” 88th Air Base Wing Public Affairs, Bryan Ripple, “Enemy drone operators may soon face the power of THOR,” 88th Air Base Wing Public Affairs,
September 24, 2019, at https://www.af.mil/News/Article-Display/Article/1836495/air-force-research-laboratory-September 24, 2019, at https://www.af.mil/News/Article-Display/Article/1836495/air-force-research-laboratory-
completes-successful-shoot-down-of-air-launched-m/. completes-successful-shoot-down-of-air-launched-m/.
2829 1st Lt. James Wymer, “AFRL’s drone killer, THOR will welcome new drone ‘hammer,’” 1st Lt. James Wymer, “AFRL’s drone killer, THOR will welcome new drone ‘hammer,’” U.S. Air Force, August 2, , August 2,
2021, at https://www.af.mil/News/Article-Display/Article/2713908/afrls-drone-killer-thor-will-welcome-new-drone-2021, at https://www.af.mil/News/Article-Display/Article/2713908/afrls-drone-killer-thor-will-welcome-new-drone-
hammer/.hammer/.
1st Lt. Nina Rogers, “AFRL conducts swarm technology demonstration,” Air Force Research Laboratory Public Affairs, May 16, 2023, at https://www.afrl.af.mil/News/Article-Display/Article/3396995/afrl-conducts-swarm-technology-demonstration/. 30 Steve Trimble, “Pentagon Seeks Jump to Long-Range Targets For Microwave Weapons,” Aviation Week Intelligence Network, February 2, 2024. Congressional Research Service Congressional Research Service

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Figure 3. THOR Demonstrator

Source: U.S. Air Force, AFRL Directed Energy Directorate, press release, September 24, 2019. U.S. Air Force, AFRL Directed Energy Directorate, press release, September 24, 2019.
Phaser High-Powered Microwave
The Phaser High-Powered Microwave system (seeThe Phaser High-Powered Microwave system (see Figure 4), developed by Raytheon, is intended , developed by Raytheon, is intended
to provide a short-range C-UAS capability similar to that of THOR. The Air Force reportedly to provide a short-range C-UAS capability similar to that of THOR. The Air Force reportedly
procured a $16.3 million prototype Phaser for testing and overseas field assessments; however, it procured a $16.3 million prototype Phaser for testing and overseas field assessments; however, it
is unclear whether the system has been deployed outside the United States.is unclear whether the system has been deployed outside the United States.2931
Figure 4. Phaser Demonstrator

Source: Raytheon Missiles and Defense, Phaser product page, February 2020. Raytheon Missiles and Defense, Phaser product page, February 2020.
Counter-Electronic High-Power Microwave Extended-Range Air
Base Defense (CHIMERA)
AFRL awarded Raytheon Missiles and Defense a contract for testing of the Counter-Electronic AFRL awarded Raytheon Missiles and Defense a contract for testing of the Counter-Electronic
High-Power Microwave Extended-Range Air Base Defense (CHIMERA) system in October High-Power Microwave Extended-Range Air Base Defense (CHIMERA) system in October
2020. In contrast to THOR and Phaser, which are designed for a short-range C-UAS mission, the 2020. In contrast to THOR and Phaser, which are designed for a short-range C-UAS mission, the

2931 Joe Pappalardo, “The Air Force Is Deploying Its First Drone-Killing Microwave Weapon,” Joe Pappalardo, “The Air Force Is Deploying Its First Drone-Killing Microwave Weapon,” Popular Mechanics, ,
September 24, 2019, at https://www.popularmechanics.com/military/weapons/a29198555/phaser-weapon-air-force/; September 24, 2019, at https://www.popularmechanics.com/military/weapons/a29198555/phaser-weapon-air-force/;
and Theresa Hitchens, “AF Says Lasers Are Being Field Tested, but NOT THOR or Other Microwave Weapons,” and Theresa Hitchens, “AF Says Lasers Are Being Field Tested, but NOT THOR or Other Microwave Weapons,”
Breaking Defense, December 22, 2020, at https://breakingdefense.com/2020/12/af-says-lasers-are-being-field-tested-, December 22, 2020, at https://breakingdefense.com/2020/12/af-says-lasers-are-being-field-tested-
but-not-thor-or-other-microwave-weapon/. but-not-thor-or-other-microwave-weapon/.
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CHIMERA system is intended to be able to engage UAS at greater distances. CHIMERA system is intended to be able to engage UAS at greater distances.~~30 Unclassified~~
32 In January 2024, AFRL and Raytheon acquired and tracked aerial targets for an entire flight path during a three-week field test at White Sands Missile Range in New Mexico.33 Unclassified information about the CHIMERA system is limited. information about the CHIMERA system is limited.
High-Energy Laser Weapon System (HELWS)
The High-Energy Laser Weapon System (HELWS) is to serve as a mobile C-UAS capability for The High-Energy Laser Weapon System (HELWS) is to serve as a mobile C-UAS capability for
air base defense (seair base defense (see Figure 5). The system comprises a laser weapon and multispectral targeting . The system comprises a laser weapon and multispectral targeting
system mounted on the back of a Polaris MRZR all-terrain vehicle and can reportedly operate at system mounted on the back of a Polaris MRZR all-terrain vehicle and can reportedly operate at
distances of up to 3 km.distances of up to 3 km.3134 HELWS developer Raytheon claims the laser can fire dozens of shots HELWS developer Raytheon claims the laser can fire dozens of shots
using a single charge from a standard 220-volt outlet, and an indefinite number of shots if using a single charge from a standard 220-volt outlet, and an indefinite number of shots if
connected to an external power source such as a generator.connected to an external power source such as a generator.3235 The Air Force acquired the first The Air Force acquired the first
HELWS in October 2019 and reportedly deployed HELWS overseas for field assessments in HELWS in October 2019 and reportedly deployed HELWS overseas for field assessments in
April 2020.April 2020.3336 The Air Force awarded Raytheon a $15.5 million contract for an upgraded version The Air Force awarded Raytheon a $15.5 million contract for an upgraded version
of HELWS in April 2021.of HELWS in April 2021.3437 This version is to be “delivered unmounted on pallets for potential This version is to be “delivered unmounted on pallets for potential
use with different platforms.”use with different platforms.”35
~~Figure 5. HELWS Prototype~~

~~Source:~~ ~~Raytheon Missiles and Defense, HELWS product page, April 2020.~~38

3032 Sara Sirota, “AFRL to award Raytheon sole-sourced contract for directed energy weapon,” Sara Sirota, “AFRL to award Raytheon sole-sourced contract for directed energy weapon,” Inside Defense, October , October
29, 2020, at https://insidedefense.com/insider/afrl-award-raytheon-sole-sourced-contract-directed-energy-weapon. 29, 2020, at https://insidedefense.com/insider/afrl-award-raytheon-sole-sourced-contract-directed-energy-weapon.
3133 RTX press release, “RTX’s CHIMERA high-power microwave system excels during three-week field test,” January 29, 2024, at https://www.rtx.com/news/news-center/2024/01/29/rtxs-chimera-high-power-microwave-system-excels-during-three-week-field-test. 34 Raytheon, “Raytheon Intelligence & Space delivers another Air Force laser system ready for operational use,” Raytheon, “Raytheon Intelligence & Space delivers another Air Force laser system ready for operational use,”
September 14, 2020, https://www.raytheonintelligenceandspace.com/news/advisories/raytheon-intelligence-space-September 14, 2020, https://www.raytheonintelligenceandspace.com/news/advisories/raytheon-intelligence-space-
delivers-another-air-force-laser-system-ready; and Nathan Strout, “Raytheon awarded $15.5 million to upgrade laser delivers-another-air-force-laser-system-ready; and Nathan Strout, “Raytheon awarded $15.5 million to upgrade laser
weapon,” weapon,” C4ISRNET, April 7, 2021, at https://www.c4isrnet.com/unmanned/2021/04/07/raytheon-awarded-155-to-, April 7, 2021, at https://www.c4isrnet.com/unmanned/2021/04/07/raytheon-awarded-155-to-
upgrade-laser-weapon/. upgrade-laser-weapon/.
3235 Kyle Mizokami, “The Air Force Mobilizes Its Laser and Microwave Weapons Abroad,” Kyle Mizokami, “The Air Force Mobilizes Its Laser and Microwave Weapons Abroad,” Popular Mechanics, April 9, , April 9,
2020, at https://www.popularmechanics.com/military/weapons/a32083799/laser-microwave-weapons/; and Raytheon, 2020, at https://www.popularmechanics.com/military/weapons/a32083799/laser-microwave-weapons/; and Raytheon,
“Raytheon Intelligence & Space delivers another Air Force laser system ready for operational use,” September 14, “Raytheon Intelligence & Space delivers another Air Force laser system ready for operational use,” September 14,
2020, at https://www.raytheonintelligenceandspace.com/news/advisories/raytheon-intelligence-space-delivers-another-2020, at https://www.raytheonintelligenceandspace.com/news/advisories/raytheon-intelligence-space-delivers-another-
air-force-laser-system-ready. air-force-laser-system-ready.
3336 Raytheon, “Raytheon Delivers First Laser Counter-UAS System to U.S. Air Force,” October 22, 2019, at Raytheon, “Raytheon Delivers First Laser Counter-UAS System to U.S. Air Force,” October 22, 2019, at
https://raytheon.mediaroom.com/2019-10-22-Raytheon-delivers-first-laser-counter-UAS-System-to-U-S-Air-https://raytheon.mediaroom.com/2019-10-22-Raytheon-delivers-first-laser-counter-UAS-System-to-U-S-Air-
Force#:~:text=Laser%20dune%20buggy%20set%20for,Air%20Force%20earlier%20this%20month; and 88th Air Base Force#:~:text=Laser%20dune%20buggy%20set%20for,Air%20Force%20earlier%20this%20month; and 88th Air Base
Wing Public Affairs, “AFRL gives warfighters new weapons system,” April 6, 2020, at https://www.whs.mil/News/Wing Public Affairs, “AFRL gives warfighters new weapons system,” April 6, 2020, at https://www.whs.mil/News/
News-Display/Article/2138161/afrl-gives-warfighters-new-weapons-system/. News-Display/Article/2138161/afrl-gives-warfighters-new-weapons-system/.
3437 Nathan Strout, “Raytheon awarded $15.5 million to upgrade laser weapon,” Nathan Strout, “Raytheon awarded $15.5 million to upgrade laser weapon,” C4ISRNET, April 7, 2021, at , April 7, 2021, at
https://www.c4isrnet.com/unmanned/2021/04/07/raytheon-awarded-155-to-upgrade-laser-weapon/. https://www.c4isrnet.com/unmanned/2021/04/07/raytheon-awarded-155-to-upgrade-laser-weapon/.
3538 Ibid. Ibid.
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Figure 5. HELWS Prototype Source: Raytheon Missiles and Defense, HELWS product page, April 2020. Self-Protect High-Energy Laser Demonstrator (SHiELD)
The Self-Protect High-Energy Laser Demonstrator (SHiELD) is a prototype system in The Self-Protect High-Energy Laser Demonstrator (SHiELD) is a prototype system in
development by AFRL, Boeing, Lockheed Martin, and Northrop Grumman (seedevelopment by AFRL, Boeing, Lockheed Martin, and Northrop Grumman (see Figure 6). It is . It is
intended to mount as an external pod on Air Force aircraft—from fourth-generation F-15 fighters intended to mount as an external pod on Air Force aircraft—from fourth-generation F-15 fighters
to sixth-generation aircraft currently in development—and target incoming air-to-air and surface-to sixth-generation aircraft currently in development—and target incoming air-to-air and surface-
to-air missiles.to-air missiles.3639 The Air Force conducted a series of tests of the Demonstrator Laser Weapon The Air Force conducted a series of tests of the Demonstrator Laser Weapon
System, a ground-based test surrogate for SHiELD, in April 2019. The demonstrator successfully System, a ground-based test surrogate for SHiELD, in April 2019. The demonstrator successfully
engaged incoming missiles and helped validate SHiELD’s technology; however, technical issues engaged incoming missiles and helped validate SHiELD’s technology; however, technical issues
and challenges related to the COVID-19 pandemic have reportedly pushed SHiELD’s first flight and challenges related to the COVID-19 pandemic have reportedly pushed SHiELD’s first flight
demonstration from FY2021 to FY2024.demonstration from FY2021 to FY2024.3740 Furthermore, at a June 2020 Mitchell Institute event, Furthermore, at a June 2020 Mitchell Institute event,
then-Assistant Secretary of the Air Force Will Roper stated that the Air Force is reassessing the then-Assistant Secretary of the Air Force Will Roper stated that the Air Force is reassessing the
technological maturity of and use cases for SHiELD, as well as its potential role in missile technological maturity of and use cases for SHiELD, as well as its potential role in missile
defense missions.defense missions.3841 Former Under Secretary of Defense for Research and Engineering Mike Former Under Secretary of Defense for Research and Engineering Mike
Griffin has noted that he is “extremely skeptical that we can put a large laser on an aircraft and Griffin has noted that he is “extremely skeptical that we can put a large laser on an aircraft and
use it to shoot down an adversary missile, even from fairly close.”use it to shoot down an adversary missile, even from fairly close.”39
~~Figure 6. SHiELD Prototype Rendering~~

Source: Lockheed Martin, Tactical Airborne Laser Weapon System, September 14, 2020.

3642 As part of SHiELD, Lockheed Martin in 2022 delivered a subsystem to AFRL, a compact directed energy weapon called Laser Advancements for Next-Generation Compact Environments (LANCE).43 In May 2024, SHiELD program manager Dr. Ted Ortiz noted that “the SHiELD program has concluded, 39 See Joanne Perkins, “AFRL’s SHiELD set to receive critical assembly,” See Joanne Perkins, “AFRL’s SHiELD set to receive critical assembly,” Air Force Research Laboratory, February , February
23, 2021, at https://www.afrl.af.mil/News/Article-Display/Article/2511692/afrls-shield-set-to-receive-critical-23, 2021, at https://www.afrl.af.mil/News/Article-Display/Article/2511692/afrls-shield-set-to-receive-critical-
assembly/. assembly/.
3740 “Air Force Research Laboratory completes successful shoot down of air-launched missiles,” 88th Air Base Wing “Air Force Research Laboratory completes successful shoot down of air-launched missiles,” 88th Air Base Wing
PublicPublic Affairs, May 3, 2019, at https://www.af.mil/News/Article-Display/Article/1836495/air-force-research-Affairs, May 3, 2019, at https://www.af.mil/News/Article-Display/Article/1836495/air-force-research-
laboratory-completes-successful-shoot-down-of-air-launched-m/; Valerie Insinna, “US Air Force delays timeline for laboratory-completes-successful-shoot-down-of-air-launched-m/; Valerie Insinna, “US Air Force delays timeline for
testing a laser on a fighter jet,” testing a laser on a fighter jet,” Defense News, June 30, 2020, at https://www.defensenews.com/air/2020/06/30/us-air-, June 30, 2020, at https://www.defensenews.com/air/2020/06/30/us-air-
force-delays-timeline-for-testing-a-laser-on-a-fighter-jet/; and Nathan Strout, “Air Force to begin assembly of airborne force-delays-timeline-for-testing-a-laser-on-a-fighter-jet/; and Nathan Strout, “Air Force to begin assembly of airborne
laser,” laser,” C4ISRNET, February 23, 2021, at https://www.c4isrnet.com/battlefield-tech/2021/02/23/air-force-to-begin-, February 23, 2021, at https://www.c4isrnet.com/battlefield-tech/2021/02/23/air-force-to-begin-
assembly-of-airborne-laser/. assembly-of-airborne-laser/.
3841 Valerie Insinna, “US Air Force delays timeline for testing a laser on a fighter jet,” Valerie Insinna, “US Air Force delays timeline for testing a laser on a fighter jet,” Defense News, June 30, 2020, at , June 30, 2020, at
https://www.defensenews.com/air/2020/06/30/us-air-force-delays-timeline-for-testing-a-laser-on-a-fighter-jet/. https://www.defensenews.com/air/2020/06/30/us-air-force-delays-timeline-for-testing-a-laser-on-a-fighter-jet/.
3942 Aaron Mehta, “Griffin ‘extremely skeptical’ of airborne lasers for missile defense,” Aaron Mehta, “Griffin ‘extremely skeptical’ of airborne lasers for missile defense,” Defense News, May 20, 2020, at , May 20, 2020, at
https://www.defensenews.com/2020/05/20/griffin-extremely-skeptical-of-airborne-lasers-for-missile-defense/. https://www.defensenews.com/2020/05/20/griffin-extremely-skeptical-of-airborne-lasers-for-missile-defense/.
43 Justin Katz, “Lockheed delivers airborne laser LANCE to Air Force Research Lab,” Breaking Defense, July 11, 2020, at https://breakingdefense.com/2022/07/lockheed-delivers-airborne-laser-lance-to-air-force-research-lab/. Congressional Research Service Congressional Research Service

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and there are no plans for further testing and evaluation.”44 SHiELD was not installed on a fighter jet test bed.45 Figure 6. SHiELD Prototype Rendering Source: Lockheed Martin, Tactical Airborne Laser Weapon System, September 14, 2020. Selected Army Directed Energy Weapons Programs46~~Selected Army Directed Energy Weapons Programs40~~
The Army Rapid Capabilities and Critical Technologies Office (RCCTO) is currently managing The Army Rapid Capabilities and Critical Technologies Office (RCCTO) is currently managing
three major Army DE weapons programs: three major Army DE weapons programs:
• Directed Energy Maneuver-Short Range Air Defense (DE M-SHORAD), • Directed Energy Maneuver-Short Range Air Defense (DE M-SHORAD),
• Indirect Fire Protection Capability-High Energy Laser (IFPC-HEL), and • Indirect Fire Protection Capability-High Energy Laser (IFPC-HEL), and
• Indirect Fire Protection Capability-High Power Microwave (IFPC-HPM).• Indirect Fire Protection Capability-High Power Microwave (IFPC-HPM).4147
The Army is developing DE weapons to counter UAS and rockets, artillery, and mortars (RAM), The Army is developing DE weapons to counter UAS and rockets, artillery, and mortars (RAM),
in turn increasing Army air and missile defense capability and reducing total system lifecycle in turn increasing Army air and missile defense capability and reducing total system lifecycle
costs by means of reduced logistical demands.costs by means of reduced logistical demands.4248
Directed Energy Maneuver-Short-Range Air Defense
(DE M-SHORAD)4349
DE M-SHORAD, also known as Guardian (seDE M-SHORAD, also known as Guardian (see Figure 7), seeks to integrate a 50 kW laser on a , seeks to integrate a 50 kW laser on a
Stryker combat vehicle to provide short-range air defense support to the Army’s combat brigades. Stryker combat vehicle to provide short-range air defense support to the Army’s combat brigades.
44 Jared Keller, “Another Dead End for Airborne Lasers: Air Force Scraps Effort to Mount Directed-Energy Weapon on Fighter Jet,” Military.com, May 17, 2024, https://www.military.com/daily-news/2024/05/17/air-force-abandons-plan-mount-laser-weapon-fighter-jet-after-scrapping-similar-gunship-project.html. 45 Ibid. 46 This section was written by Andrew Feickert, CRS Specialist in Military Ground Forces. 47 Lieutenant General (LTG) L. Neil Thurgood, “Space and Missile Defense Symposium,” Army Rapid Capabilities and Critical Technologies Office, August 11, 2021. 48 Nancy Jones-Bonbrest, “Army Advances First Laser Weapon Through Combat Shoot-Off,” Army Rapid Capabilities and Critical Technologies Office, August 10, 2021, at https://www.army.mil/article/249239/army_advances_first_laser_weapon_through_combat_shoot_off. 49 For additional information, see CRS In Focus IF12397, U.S. Army’s Maneuver Short-Range Air Defense (M-SHORAD) System, by Andrew Feickert. Congressional Research Service 9 Department of Defense Directed Energy Weapons: Background and Issues for Congress The Army reportedly tested two DE M-SHORAD prototypes—one from Raytheon/Kord and one The Army reportedly tested two DE M-SHORAD prototypes—one from Raytheon/Kord and one
from Northrop Grumman—in a “shoot-off” at Ft. Sill, Oklahoma, in July 2021.from Northrop Grumman—in a “shoot-off” at Ft. Sill, Oklahoma, in July 2021.4450 According to According to
Director of the RCCTO Lieutenant General Neil Thurgood, DE M-SHORAD successfully Director of the RCCTO Lieutenant General Neil Thurgood, DE M-SHORAD successfully
defeated UAS but failed to defeat mortar rounds during this test; Northrop Grumman defeated UAS but failed to defeat mortar rounds during this test; Northrop Grumman
subsequently withdrew from the program.subsequently withdrew from the program.4551 The Army tested the Raytheon/Kord prototype again The Army tested the Raytheon/Kord prototype again
in 2022 during a four-week exercise at White Sands Missile Range, New Mexico and in 2023 in 2022 during a four-week exercise at White Sands Missile Range, New Mexico and in 2023
during a live-fire test at Yuma Proving Ground.during a live-fire test at Yuma Proving Ground.4652 According to a Raytheon press release, the According to a Raytheon press release, the
prototype “acquired, tracked, targeted, and defeated multiple mortars and successfully prototype “acquired, tracked, targeted, and defeated multiple mortars and successfully
accomplished multiple tests simulating real-world scenarios.”accomplished multiple tests simulating real-world scenarios.”47
~~The Army reportedly plans to deliver the first set of~~53 Army plans called for DE M- DE M-SHORAD to start a user assessment beginning in the fourth quarter of FY2023, running through the first~~SHORAD prototypes in 2023 and to~~
~~“begin developing tactics, techniques and procedures for the systems” in the fourth quarter of~~
~~FY2023.48 In FY2025, the Army is to transfer the program from the RCCTO to the Program~~

~~40 This section was written by Andrew Feickert, CRS Specialist in Military Ground Forces.~~
~~41 Lieutenant General (LTG) L. Neil Thurgood, “Space and Missile Defense Symposium,” Army Rapid Capabilities~~
~~and Critical Technologies Office, August 11, 2021.~~
~~42 Nancy Jones-Bonbrest, “Army Advances First Laser Weapon Through Combat Shoot-Off,” Army Rapid Capabilities~~
~~and Critical Technologies Office, August 10, 2021, at https://www.army.mil/article/249239/~~
~~army_advances_first_laser_weapon_through_combat_shoot_off.~~
~~43 For additional information, see CRS In Focus IF12397,~~ ~~U.S. Army’s Maneuver Short-Range Air Defense (M-~~
~~SHORAD) System, by Andrew Feickert.~~
44 quarter of FY2024. The Army also plans for an additional final contract competition prior to FY2025. Reportedly, in February 2024, the Army deployed four Stryker-mounted DE M-SHORAD prototypes to the Middle East for soldiers to test the system’s performance against aerial threats. Initial soldier feedback was characterized as “not overwhelmingly positive,” with officials suggesting that “results from the lab environment and test ranges are very different from the tactical environment.”54 Figure 7. Guardian DE M-SHORAD Source: Kristen Burroughs, “The Army Rapid Capabilities and Critical Technologies Office’s Directed Energy Maneuver-Short Range Air Defense (DE M-SHORAD) Rapid Prototyping Effort is On-Track to Deliver,” Army News, August 18, 2021. 50 Jared Keller, “The Army’s First Laser Weapon Almost Ready for a Fight,” Jared Keller, “The Army’s First Laser Weapon Almost Ready for a Fight,” Task and Purpose,, August 12, 2021; and August 12, 2021; and
Ethan Sterenfeld, “Laser M-SHORAD works against mortars in Army test,” Ethan Sterenfeld, “Laser M-SHORAD works against mortars in Army test,” Inside Defense, May 17, 2022. , May 17, 2022.
4551 Evan Oschner, “Army set to deliver first 50-kilowatt lasers,” Evan Oschner, “Army set to deliver first 50-kilowatt lasers,” Inside Defense, August 10, 2022; and Jen Judson, , August 10, 2022; and Jen Judson,
“Northrop bows out of competition to build laser weapon for Strykers,” Defense News, August 18, 2021. “Northrop bows out of competition to build laser weapon for Strykers,” Defense News, August 18, 2021.
4652 Ethan Sterenfeld, “Laser M-SHORAD works against mortars in Army test,” Ethan Sterenfeld, “Laser M-SHORAD works against mortars in Army test,” Inside Defense, May 17, 2022; and Jen , May 17, 2022; and Jen
Judson, “Army short-range air defense laser prototypes take down drones at Yuma,” Judson, “Army short-range air defense laser prototypes take down drones at Yuma,” Defense News, April 13, 2023., April 13, 2023.
4753 Ethan Sterenfeld, “Laser M-SHORAD works against mortars in Army test,” Ethan Sterenfeld, “Laser M-SHORAD works against mortars in Army test,” Inside Defense, May 17, 2022. See also , May 17, 2022. See also
Jen Judson, “Army short-range air defense laser prototypes take down drones at Yuma,” Jen Judson, “Army short-range air defense laser prototypes take down drones at Yuma,” Defense News, April 13, 2023. , April 13, 2023.
~~48 Jen Judson, “Army short-range air defense laser prototypes take down drones at Yuma,” Defense News, April 13,~~
~~2023~~54 Ashley Roque, “Army Soldiers not Impressed with Strykers Outfitted with 50-kilowatt Lasers, Service Official Says,” Breaking Defense, May 16, 2024. .
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~~Executive Office (PEO) Missiles and Space M-SHORAD Product Office.49 The Product Office is~~
~~to then “initiate acquisition and contract documents to support a competitive production~~
~~decision.”50~~
~~Figure 7. Guardian DE M-SHORAD~~

Source: Kristen Burroughs, “The Army Rapid Capabilities and Critical Technologies Office’s Directed Energy
~~Maneuver-Short Range Air Defense (DE M-SHORAD) Rapid Prototyping Effort is On-Track to Deliver,”~~ ~~Army~~
~~News, August 18, 2021.~~
Indirect Fire Protection Capability-High Energy Laser (IFPC-HEL)5155
IFPC-HEL, also known as Valkyrie (seeIFPC-HEL, also known as Valkyrie (see Figure 8), is to protect fixed and semi-fixed sites from , is to protect fixed and semi-fixed sites from
cruise missiles, UAS, and RAM threats.cruise missiles, UAS, and RAM threats.5256 According to Army budget documents, the system is to According to Army budget documents, the system is to
include “a vehicle, 300 kW class [>250 kW] laser subsystem, power and thermal subsystem, and include “a vehicle, 300 kW class [>250 kW] laser subsystem, power and thermal subsystem, and
a beam control subsystem integrated with a battle management command, control, and a beam control subsystem integrated with a battle management command, control, and
communication software.”communication software.”5357 Army RCCTO issued a request for white papers for IFPC-HEL in Army RCCTO issued a request for white papers for IFPC-HEL in
January 2022, “with the intent of awarding one or more Other Transaction Agreement for January 2022, “with the intent of awarding one or more Other Transaction Agreement for
Prototype.”Prototype.”5458 Reports indicate that the Army subsequently selected Dynetics to serve as systems Reports indicate that the Army subsequently selected Dynetics to serve as systems

~~49 DOD,~~ ~~Department of Defense Fiscal Year (FY) 2023 Budget Estimates, Army Justification Book Volume II Budget~~
~~Activity 4, Research, Development, Test & Evaluation, p. 563, at https://www.asafm.army.mil/Portals/72/Documents/~~
~~BudgetMaterial/2023/Base%20Budget/rdte/vol_2-Budget_Activity_4.pdf.~~
~~50 Ibid., p. 564.~~
51integrator for IFPC-HEL.59 Four IFPC-HEL prototypes are to be delivered in the third quarter of FY2025, when IFPC-HEL is to transition to a program of record.60 Figure 8. Valkyrie IFPC-HEL Source: “Dynetics to Build and Increase Power of U.S. Army Laser Weapons,” May 7, 2020, https://www.dynetics.com/newsroom/news/2020/dynetics-to-build-and-increase-power-of-us-army-laser-weapons, accessed August 12, 2022. 55 For additional information, see CRS In Focus IF12421, For additional information, see CRS In Focus IF12421, The U.S. Army’s Indirect Fire Protection Capability (IFPC)
System, by Andrew Feickert. , by Andrew Feickert.
5256 DOD, DOD, Department of Defense Fiscal Year (FY) 2023 Budget Estimates, Army Justification Book Volume II Budget
Activity 4, Research, Development, Test & Evaluation, p. 405, at https://www.asafm.army.mil/Portals/72/Documents/, p. 405, at https://www.asafm.army.mil/Portals/72/Documents/
BudgetMaterial/2023/Base%20Budget/rdte/vol_2-Budget_Activity_4.pdf. BudgetMaterial/2023/Base%20Budget/rdte/vol_2-Budget_Activity_4.pdf.
5357 DOD, DOD, Department of Defense Fiscal Year (FY) 2023 Budget Estimates, Army Justification Book Volume II Budget
Activity 4, Research, Development, Test & Evaluation, p. 403, at https://www.asafm.army.mil/Portals/72/Documents/, p. 403, at https://www.asafm.army.mil/Portals/72/Documents/
BudgetMaterial/2023/Base%20Budget/rdte/vol_2-Budget_Activity_4.pdf. BudgetMaterial/2023/Base%20Budget/rdte/vol_2-Budget_Activity_4.pdf.
5458 SAM.gov, “Request for White Papers (RFWP) Indirect Fire Protection Capability-High Energy Laser (IFPC-HEL) SAM.gov, “Request for White Papers (RFWP) Indirect Fire Protection Capability-High Energy Laser (IFPC-HEL)
Prototypes Prime Contractor,” January 20, 2022, at https://sam.gov/opp/fe1cce00fde64c328b5234be24c795b1/view. Prototypes Prime Contractor,” January 20, 2022, at https://sam.gov/opp/fe1cce00fde64c328b5234be24c795b1/view.
For additional information about Other Transaction Agreements, see CRS Report R45521, For additional information about Other Transaction Agreements, see CRS Report R45521, Department of Defense Use
of Other Transaction Authority: Background, Analysis, and Issues for Congress, by Heidi M. Peters. , by Heidi M. Peters.
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~~integrator for IFPC-HEL.55 Four IFPC-HEL prototypes are to be delivered in the third quarter of~~
~~FY2025, when IFPC-HEL is to transition to a program of record.56~~
~~Figure 8. Valkyrie IFPC-HEL~~

Source: “Dynetics to Build and Increase Power of U.S. Army Laser Weapons,” May 7, 2020,
~~https://www.dynetics.com/newsroom/news/2020/dynetics-to-build-and-increase-power-of-us-army-laser-~~
~~weapons, accessed August 12, 2022.~~
~~IFPC-High Power Microwave (IFPC-HPM)57~~59 Andrew Eversden, “US Army successfully tests Iron Dome at White Sands Missile Range,” Breaking Defense, August 2, 2022, at https://breakingdefense.com/2022/08/us-army-successfully-tests-iron-dome-at-white-sands-missile-range/. 60 DOD, Department of Defense Fiscal Year (FY) 2024 Budget Estimates, Army Justification Book Volume II Budget Activity 4, Research, Development, Test & Evaluation, p. 344, at https://www.asafm.army.mil/Portals/72/Documents/BudgetMaterial/2024/Base%20Budget/rdte/RDTE-Vol%202-Budget%20Activity%204A.pdf. Congressional Research Service 11 link to page 17 Department of Defense Directed Energy Weapons: Background and Issues for Congress IFPC-High Power Microwave (IFPC-HPM)61
The Army is developing IFPC-HPM (seThe Army is developing IFPC-HPM (see Figure 9)—a transportable, containerized system—to —a transportable, containerized system—to
counter swarms of Group 1 and Group 2 UAS.counter swarms of Group 1 and Group 2 UAS.5862 IFPC-HPM is to be “paired with IFPC-HEL as IFPC-HPM is to be “paired with IFPC-HEL as
part of a layered defense to protect fixed and semi-fixed sites.”part of a layered defense to protect fixed and semi-fixed sites.”5963 According to Army budget According to Army budget
documents, the program “leverages previous HPM technology demonstrations and documents, the program “leverages previous HPM technology demonstrations and
experimentation campaigns such as the [the Air Force’s THOR program].”experimentation campaigns such as the [the Air Force’s THOR program].”6064 The Army intends to The Army intends to
develop, test, and deliver four IFPC-HPM prototypes by the fourth quarter of FY2024 and to develop, test, and deliver four IFPC-HPM prototypes by the fourth quarter of FY2024 and to
conduct planning for a potential transition to a program of record in FY2025.conduct planning for a potential transition to a program of record in FY2025.61

~~55 Andrew Eversden, “US Army successfully tests Iron Dome at White Sands Missile Range,” Breaking Defense,~~
~~August 2, 2022, at https://breakingdefense.com/2022/08/us-army-successfully-tests-iron-dome-at-white-sands-missile-~~
~~range/.~~
~~56 DOD,~~ ~~Department of Defense Fiscal Year (FY) 2024 Budget Estimates, Army Justification Book Volume II Budget~~
~~Activity 4, Research, Development, Test & Evaluation, p. 344, at~~
~~https://www.asafm.army.mil/Portals/72/Documents/BudgetMaterial/2024/Base%20Budget/rdte/RDTE-Vol%202-~~
~~Budget%20Activity%204A.pdf.~~
5765 On May 15, 2024, Epirus reportedly delivered the last two IFPC-HPM systems to the Army, with Epirus further noting that the systems had completed new equipment training and engineering developmental testing.66 Lasers on Next-Generation Army Combat Vehicles Army officials have suggested that next-generation combat vehicles could feature an active protection system employing directed energy to protect the vehicle and to replace traditional mounted weapons.67 The Army asserts that active protection systems featuring lasers could provide 360-degree protection from incoming rounds or UASs, and that laser weapons might also be used to disable or possibly destroy enemy vehicles. Officials note that to begin fielding Army units with a next-generation combat vehicle in 2035, major decisions would need to be made by 2025. This time frame suggests that the Army has fewer than two years to advance laser weapons technology to a point where it can be considered a viable option, if it is to be incorporated into next-generation combat vehicles.68 61 For additional information, see CRS In Focus IF12421, For additional information, see CRS In Focus IF12421, The U.S. Army’s Indirect Fire Protection Capability (IFPC)
System, by Andrew Feickert. , by Andrew Feickert.
5862 DOD, DOD, Department of Defense Fiscal Year (FY) 2023 Budget Estimates, Army Justification Book Volume II Budget
Activity 4, Research, Development, Test & Evaluation, p. 411, at https://www.asafm.army.mil/Portals/72/Documents/, p. 411, at https://www.asafm.army.mil/Portals/72/Documents/
BudgetMaterial/2023/Base%20Budget/rdte/vol_2-Budget_Activity_4.pdf. Group 1 UAS are “typically hand-launched, BudgetMaterial/2023/Base%20Budget/rdte/vol_2-Budget_Activity_4.pdf. Group 1 UAS are “typically hand-launched,
portable systems,” while Group 2 UAS are “typically medium-sized, catapult-launched, mobile systems.” For portable systems,” while Group 2 UAS are “typically medium-sized, catapult-launched, mobile systems.” For
additional information about UAS groups, see U.S. Army, additional information about UAS groups, see U.S. Army, US. Army Unmanned Aircraft Systems Roadmap 2010-2035, ,
pp. 12-13, at https://irp.fas.org/program/collect/uas-army.pdf. pp. 12-13, at https://irp.fas.org/program/collect/uas-army.pdf.
5963 “Army Directed Energy Strategy,” Army Rapid Capabilities and Critical Technologies Office, August 20, 2021. “Army Directed Energy Strategy,” Army Rapid Capabilities and Critical Technologies Office, August 20, 2021.
6064 DOD, DOD, Department of Defense Fiscal Year (FY) 2023 Budget Estimates, Army Justification Book Volume II Budget
Activity 4, Research, Development, Test & Evaluation, p. 411, at https://www.asafm.army.mil/Portals/72/Documents/, p. 411, at https://www.asafm.army.mil/Portals/72/Documents/
BudgetMaterial/2023/Base%20Budget/rdte/vol_2-Budget_Activity_4.pdf. BudgetMaterial/2023/Base%20Budget/rdte/vol_2-Budget_Activity_4.pdf.
6165 DOD, DOD, Department of Defense Fiscal Year (FY) 2024 Budget Estimates, Army Justification Book Volume II Budget
Activity 4, Research, Development, Test & Evaluation, p. 350, at , p. 350, at
https://www.asafm.army.mil/Portals/72/Documents/BudgetMaterial/2024/Base%20Budget/rdte/RDTE-Vol%202-https://www.asafm.army.mil/Portals/72/Documents/BudgetMaterial/2024/Base%20Budget/rdte/RDTE-Vol%202-
Budget%20Activity%204A.pdf. Budget%20Activity%204A.pdf.
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~~Lasers on Next-Generation Army Combat Vehicles~~
~~Army officials have suggested that next-generation combat vehicles could feature an active~~
~~protection system employing directed energy to protect the vehicle and to replace traditional~~
~~mounted weapons.62 The Army asserts that active protection systems featuring lasers could~~
~~provide 360-degree protection from incoming rounds or UASs, and that laser weapons might also~~
~~be used to disable or possibly destroy enemy vehicles. Officials note that to begin fielding Army~~
~~units with a next-generation combat vehicle in 2035, major decisions would need to be made by~~
~~2025. This time frame suggests that the Army has fewer than two years to advance laser weapons~~
~~technology to a point where it can be considered a viable option, if it is to be incorporated into~~
~~next-generation combat vehicles.63~~
~~Selected Navy Directed Energy Programs64~~66 Dan Schere, “Epirus Delivers Last Two IFPC High-Power Microwave Prototypes to Army,” Inside Defense, May 15, 2024. 67 CRS Report R44598, Army and Marine Corps Active Protection System (APS) Efforts, by Andrew Feickert. 68 See Gary Sheftick, “The Next-Generation Combat Vehicle Could Have Lasers, Run on Hybrid Power,” Army News Service, November 3, 2016, and Hope Hodge Seck, “Next Army Combat Vehicle May Feature Active Protection, Laser Weapons,” Defense Tech, October 30, 2017. Congressional Research Service 12 link to page 17 link to page 17 link to page 17 link to page 17 Department of Defense Directed Energy Weapons: Background and Issues for Congress Selected Navy Directed Energy Programs69
The Navy installed its first prototype DE weapon, a 30 kW laser capable of countering small The Navy installed its first prototype DE weapon, a 30 kW laser capable of countering small
surface craft and UAS, on the USS surface craft and UAS, on the USS Ponce in 2014. in 2014.6570 Since then, the Navy has been developing Since then, the Navy has been developing
lasers with improved capability for countering surface craft and UAS and is in the process of lasers with improved capability for countering surface craft and UAS and is in the process of
developing a capability for countering anti-ship cruise missiles (ASCMs). Current Navy DE developing a capability for countering anti-ship cruise missiles (ASCMs). Current Navy DE
programs include the following: programs include the following:
• Solid State Laser Technology Maturation (SSL-TM); • Solid State Laser Technology Maturation (SSL-TM);
• Optical Dazzling Interdictor, Navy (ODIN); • Optical Dazzling Interdictor, Navy (ODIN);
• Surface Navy Laser Weapon System (SNLWS) Increment 1, also known as the • Surface Navy Laser Weapon System (SNLWS) Increment 1, also known as the
High-Energy Laser with Integrated Optical-dazzler and Surveillance (HELIOS); High-Energy Laser with Integrated Optical-dazzler and Surveillance (HELIOS);
and and
• High Energy Laser Counter-ASCM Program (HELCAP). • High Energy Laser Counter-ASCM Program (HELCAP).
The Navy’s laser development roadmap is illustrated in The Navy’s laser development roadmap is illustrated in Figure 9.

~~62 CRS Report R44598, Army and Marine Corps Active Protection System (APS) Efforts, by Andrew Feickert.~~
~~63 See Gary Sheftick, “The Next-Generation Combat Vehicle Could Have Lasers, Run on Hybrid Power,”~~ ~~Army News~~
~~Service, November 3, 2016, and Hope Hodge Seck, “Next Army Combat Vehicle May Feature Active Protection, Laser~~
~~Weapons,” Defense Tech, October 30, 2017.~~
64 Figure 9. Navy Laser Development Roadmap Source: Navy briefing slide provided by Navy Office of Legislative Affairs to CRS on May 16, 2024. N96 is the Surface Warfare Division of the Office of Chief of Naval Operations. N94 is the Innovation, Technology Missions, and Test and Evaluation Division. As shown in Figure 9, SSL-TM, ODIN, and SNLWS Increment 1/HELIOS are included in the Navy Laser Family of Systems (NLFoS). (The Navy has since completed work on the fourth NLFoS effort shown in Figure 9, the Ruggedized High Energy Laser [RHEL].) As also shown in Figure 9, the Navy intends for both NLFoS and HELCAP efforts, along with DOD laser technologies, to provide fleet capability for counter-fast inshore attack craft (C-FIAC); C-UAS; and counter-intelligence, surveillance, and reconnaissance (C-ISR). 69 This section was written by Ronald O’Rourke, CRS Specialist in Naval Affairs. For more information about U.S. This section was written by Ronald O’Rourke, CRS Specialist in Naval Affairs. For more information about U.S.
Navy DE programs, including information about the Navy’s past DE development programs, see CRS Report R44175, Navy DE programs, including information about the Navy’s past DE development programs, see CRS Report R44175,
Navy Shipboard Lasers: Background and Issues for Congress, by Ronald O'Rourke. , by Ronald O'Rourke.
6570 Sam LaGrone, “U.S. Navy Allowed to Use Persian Gulf Laser for Defense,” Sam LaGrone, “U.S. Navy Allowed to Use Persian Gulf Laser for Defense,” USNI News, December 10, 2014. , December 10, 2014.
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~~Figure 9. Navy Laser Development Roadmap~~

Source: Navy briefing slide provided by Navy Office of Legislative Affairs to CRS on August 17, 2022.
~~As shown in Figure 9, SSL-TM, ODIN, and SNLWS Increment 1/HELIOS are included in the~~
~~Navy Laser Family of Systems (NLFoS). (The Navy has since completed work on the fourth~~
~~NLFoS effort shown in Figure 9, the Ruggedized High Energy Laser [RHEL].) As also shown in~~
Figure 9, the Navy intends for both NLFoS and HELCAP efforts, along with DOD laser
~~technologies, to support the development of future, more capable lasers referred to as SNLWS~~
~~Increment 2 and SNLWS Increment 3.~~
Solid State Laser Technology Maturation (SSL-TM)
The SSL-TM program (seThe SSL-TM program (see Figure 10) is to develop a prototype shipboard laser called the Laser is to develop a prototype shipboard laser called the Laser
Weapons System Demonstrator (LWSD) “to address known capability gaps against asymmetric Weapons System Demonstrator (LWSD) “to address known capability gaps against asymmetric
threats (UAS, small boats, and ISR sensors).”threats (UAS, small boats, and ISR sensors).”6671 The program is to additionally “inform future The program is to additionally “inform future
acquisition strategies, system designs, integration architectures, and fielding plans for laser acquisition strategies, system designs, integration architectures, and fielding plans for laser
weapon systems.”weapon systems.”6772 The Navy reportedly installed a 150 kW LWSD on the USS The Navy reportedly installed a 150 kW LWSD on the USS Portland in the in the
fall of 2019 and has since completed onboard testing.fall of 2019 and has since completed onboard testing.6873 According to Navy According to Navy FY2025 budget documents, budget documents,
~~“SSL-TM is planned to start de-installation [of LWSD], ship restoration, and hardware~~
~~disposition activities during FY23”; the Navy is to complete these activities in FY2024.69~~

66SSL-TM deinstallation, final report, program closeout, and hardware disposition began in the second quarter of FY2023 and are scheduled to be completed in the fourth quarter of FY2024.74 The Navy did not request funding for SSL-TM in FY2025.75 Figure 10. Navy Graphic of SSL-TM Laser System Source: Navy briefing slide accompanying Tyler Rogoway, “Mysterious Object Northrop Is Barging From Redondo Beach Is A High-Power Naval Laser,” The Drive, October 18, 2019. The blog post credits the slide to the Navy and describes it as a “recent slide.” 71 DOD, DOD, Department of Defense, Fiscal Year (FY) 2023 Budget Estimates, Navy Justification Book Volume 2 of 5, ,
Research, Development, Test & Evaluation, Navy, April 2022, p. 184, at https://www.secnav.navy.mil/fmc/fmb/Research, Development, Test & Evaluation, Navy, April 2022, p. 184, at https://www.secnav.navy.mil/fmc/fmb/
Documents/23pres/RDTEN_BA4_Book.pdf. Documents/23pres/RDTEN_BA4_Book.pdf.
6772 DOD, DOD, Department of Defense, Fiscal Year (FY) 2023 Budget Estimates, Navy Justification Book Volume 2 of 5, ,
Research, Development, Test & Evaluation, Navy, April 2022, p. 184, at https://www.secnav.navy.mil/fmc/fmb/Research, Development, Test & Evaluation, Navy, April 2022, p. 184, at https://www.secnav.navy.mil/fmc/fmb/
Documents/23pres/RDTEN_BA4_Book.pdf. Documents/23pres/RDTEN_BA4_Book.pdf.
6873 Christopher P. Cavas, “Lasers Sprout in San Diego,” Christopher P. Cavas, “Lasers Sprout in San Diego,” Defense & Aerospace Report, March 1, 2020. , March 1, 2020.
6974 DOD, DOD, Department of Defense, Fiscal Year (FY) ~~2024~~2025 Budget Estimates, Navy Justification Book Volume 2 of 5, ,
Research, Development, Test & Evaluation, Navy, March Research, Development, Test & Evaluation, Navy, March ~~2023, p. 182~~2024, pp. 180, 185, 186, ,
https://www.secnav.navy.mil/fmc/fmb/Documents/https://www.secnav.navy.mil/fmc/fmb/Documents/~~24pres~~25pres/RDTEN_BA4_Book.pdf./RDTEN_BA4_Book.pdf.
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~~Additional FY2024 activities are to include completing the final program report (an activity~~
~~delayed from FY2023), identifying lessons learned, and closing out the program.70~~
~~Figure 10. Navy Graphic of SSL-TM Laser System~~

Source: Navy briefing slide accompanying Tyler Rogoway, “Mysterious Object Northrop Is Barging From
~~Redondo Beach Is A High-Power Naval Laser,” The Drive, October 18, 2019. The blog post credits the slide to~~
~~the Navy and describes it as a “recent slide.”~~ 75 DOD, Department of Defense, Fiscal Year (FY) 2025 Budget Estimates, Navy Justification Book Volume 2 of 5, Research, Development, Test & Evaluation, Navy, March 2024, p. 180, https://www.secnav.navy.mil/fmc/fmb/Documents/25pres/RDTEN_BA4_Book.pdf. Congressional Research Service 14 Department of Defense Directed Energy Weapons: Background and Issues for Congress
Optical Dazzling Interceptor, Navy (ODIN)
According to the Navy’s FY2024 budget submission, the Optical Dazzling Interceptor, Navy According to the Navy’s FY2024 budget submission, the Optical Dazzling Interceptor, Navy
(ODIN) effort is designed to provide “near-term, directed energy, shipboard (ODIN) effort is designed to provide “near-term, directed energy, shipboard ~~Counter-Intelligence,~~
~~Surveillance, and Reconnaissance (C-ISR)~~C-ISR capabilities to dazzle UAS and other platforms that capabilities to dazzle UAS and other platforms that
address urgent operational needs of the Fleet.”address urgent operational needs of the Fleet.” 7176 The Navy has deployed The Navy has deployed ~~seven~~eight ODIN units on ODIN units on
Arleigh Burke Flight IIA destroyersArleigh Burke Flight IIA destroyers~~, with plans to deploy an eighth in the fourth quarter of~~
~~FY2023.72~~; the service did not request RDT&E funds for ODIN in FY2025.77
SNLWS Increment 1 (HELIOS)
SNLWS Increment 1 is also known as the High-Energy Laser with Integrated Optical-dazzler and SNLWS Increment 1 is also known as the High-Energy Laser with Integrated Optical-dazzler and
Surveillance (HELIOS). The HELIOS effort is focused on rapid development and rapid fielding Surveillance (HELIOS). The HELIOS effort is focused on rapid development and rapid fielding
of a 60 kW-class high-energy laser (with growth potential to 120 kW) and dazzler in an integrated of a 60 kW-class high-energy laser (with growth potential to 120 kW) and dazzler in an integrated

~~70 DOD, Department of Defense, Fiscal Year (FY) 2024 Budget Estimates, Navy Justification Book Volume 2 of 5,~~
~~Research, Development, Test & Evaluation, Navy, March 2023, p. 183,~~
~~https://www.secnav.navy.mil/fmc/fmb/Documents/24pres/RDTEN_BA4_Book.pdf.~~
~~71 DOD, Department of Defense, Fiscal Year (FY) 2024 Budget Estimates, Navy Justification Book Volume 2 of 5,~~
~~Research, Development, Test & Evaluation, Navy, March 2023, p. 958, at~~
~~https://www.secnav.navy.mil/fmc/fmb/Documents/24pres/RDTEN_BA4_Book.pdf.~~
~~72 DOD, Department of Defense, Fiscal Year (FY) 2024 Budget Estimates, Navy Justification Book Volume 2 of 5,~~
~~Research, Development, Test & Evaluation, Navy, March 2023, p. 993, at~~
~~https://www.secnav.navy.mil/fmc/fmb/Documents/24pres/RDTEN_BA4_Book.pdf.~~
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~~weapon system, for use in countering UAS, small boats~~weapon system, for use in countering UAS, fast inshore attack craft, and ISR sensors, and for combat , and ISR sensors, and for combat
identification and battle damage assessment.identification and battle damage assessment.~~73 HELIOS systems integrator Lockheed Martin has~~
~~stated that HELIOS could eventually be integrated into the Aegis Combat System to provide~~
~~alternative “selections in [Aegis’s] weapon system component.”74~~78 According to Navy budget According to Navy budget
documents, HELIOS was installed on an Arleigh Burke-class destroyer, the USS documents, HELIOS was installed on an Arleigh Burke-class destroyer, the USS Preble, in , in
FY2022 and FY2022 and was to conduct sea trials in FY2023.conduct sea trials in FY2023.7579 The system is to remain on the ship for fleet testing The system is to remain on the ship for fleet testing
and sustainment through at least the end of and sustainment through at least the end of ~~FY2028.76~~FY2029.80
High Energy Laser Counter ASCM Project (HELCAP)
The Navy’s The Navy’s ~~FY2024~~FY2025 budget submission states that the HELCAP effort budget submission states that the HELCAP effort
will expedite the development, experimentation, integration and demonstration of critical will expedite the development, experimentation, integration and demonstration of critical
technologies to defeat crossing Anti-Ship Cruise Missiles (ASCM) by addressing the technologies to defeat crossing Anti-Ship Cruise Missiles (ASCM) by addressing the
remaining technical challenges, e.g.: atmospheric turbulence, automatic target remaining technical challenges, e.g.: atmospheric turbulence, automatic target
identification and aim point selection, precision target tracking with low jitter in high identification and aim point selection, precision target tracking with low jitter in high
clutter conditions, advanced beam control, and higher power HEL development. HELCAP clutter conditions, advanced beam control, and higher power HEL development. HELCAP
will assess, develop, experiment, and demonstrate the various laser weapon system will assess, develop, experiment, and demonstrate the various laser weapon system
technologies and methods of implementation required to defeat ASCMs in a crossing technologies and methods of implementation required to defeat ASCMs in a crossing
engagement.engagement.77
~~The HELCAP prototype system is to include a beam control testbed, 300 kW+ class laser~~
~~source—selected and adapted from a laser source developed under OSD’s laser scaling initiative,~~
~~prototype control system, and auxiliary prime power and cooling.78 The Navy plans to conduct~~
~~system experimentation in FY2023 and FY2024, focusing on “ASCM detect to engage~~
~~experimentation against targets of increasing complexity up to and including static and dynamic~~

7381 76 DOD, Department of Defense, Fiscal Year (FY) 2024 Budget Estimates, Navy Justification Book Volume 2 of 5, Research, Development, Test & Evaluation, Navy, March 2023, p. 958, at https://www.secnav.navy.mil/fmc/fmb/Documents/24pres/RDTEN_BA4_Book.pdf. 77 DOD, Department of Defense, Fiscal Year (FY) 2025 Budget Estimates, Navy Justification Book Volume 2 of 5, Research, Development, Test & Evaluation, Navy, March 2024, p. 951, https://www.secnav.navy.mil/fmc/fmb/Documents/25pres/RDTEN_BA4_Book.pdf. 78 DOD, DOD, Department of Defense Fiscal Year (FY) 2021 Budget Estimates, Navy, Justification Book Volume 2 of 5,,
Research, Development, Test & Evaluation, Navy, February 2020, p. 1021. Although the Navy previously identified , p. 1021. Although the Navy previously identified
HELIOS as being scalable to 150 kW, recent reports indicate that the system is to be scalable to only 120 kW. See, for HELIOS as being scalable to 150 kW, recent reports indicate that the system is to be scalable to only 120 kW. See, for
example, Richard R. Burgess, “HELIOS Laser Weapon System Delivered for Installation on USS Preble,” example, Richard R. Burgess, “HELIOS Laser Weapon System Delivered for Installation on USS Preble,” Seapower
Magazine, March 31, 2022, at https://seapowermagazine.org/helios-laser-weapon-system-delivered-for-installation-on-, March 31, 2022, at https://seapowermagazine.org/helios-laser-weapon-system-delivered-for-installation-on-
uss-preble/. uss-preble/.
~~74 See Justin Katz, “Lockheed delivers high-energy laser four years in the making to US Navy,” Breaking Defense,~~
~~August 18, 2022. For additional information about the Aegis Combat System, see CRS Report RL33745,~~ ~~Navy Aegis~~
~~Ballistic Missile Defense (BMD) Program: Background and Issues for Congress, by Ronald O'Rourke.~~
7579 DOD, DOD, Department of Defense, Fiscal Year (FY) 2023 Budget Estimates, Navy Justification Book Volume 2 of 5, ,
Research, Development, Test & Evaluation, Navy, April 2022, p. 1011, at https://www.secnav.navy.mil/fmc/fmb/Research, Development, Test & Evaluation, Navy, April 2022, p. 1011, at https://www.secnav.navy.mil/fmc/fmb/
Documents/23pres/RDTEN_BA4_Book.pdf. Documents/23pres/RDTEN_BA4_Book.pdf.
7680 DOD, DOD, Department of Defense, Fiscal Year (FY) ~~2024~~2025 Budget Estimates, Navy Justification Book Volume 2 of 5, ,
Research, Development, Test & Evaluation, Navy, March Research, Development, Test & Evaluation, Navy, March ~~2023~~2024, p. , p. ~~979~~944, at , at
https://www.secnav.navy.mil/fmc/fmb/Documents/https://www.secnav.navy.mil/fmc/fmb/Documents/~~24pres~~25pres/RDTEN_BA4_Book.pdf./RDTEN_BA4_Book.pdf.
77 81 DOD, DOD, Department of Defense, Fiscal Year (FY) ~~2024~~2025 Budget Estimates, Navy Justification Book Volume 2 of 5, ,
Research, Development, Test & Evaluation, Navy, March Research, Development, Test & Evaluation, Navy, March ~~2023~~2024, p. , p. ~~960~~926, at , at
https://www.secnav.navy.mil/fmc/fmb/Documents/https://www.secnav.navy.mil/fmc/fmb/Documents/~~24pres~~25pres/RDTEN_BA4_Book.pdf. Congressional Research Service 15 link to page 17 Department of Defense Directed Energy Weapons: Background and Issues for Congress The HELCAP prototype system is to include a beam control testbed, 300 kW+ class laser source—selected and adapted from a laser source developed under OSD’s laser scaling initiative, prototype control system, and auxiliary prime power and cooling.82 The Navy planned to conduct system experimentation in FY2023 and FY2024, focusing on “ASCM detect to engage experimentation against targets of increasing complexity up to and including static and dynamic ground targets and low-cost unmanned aerial targets.”83 According to Navy budget documents, the service is to complete “primary demonstration activities” in FY2025.84 HELCAP ~~/RDTEN_BA4_Book.pdf.~~
~~78 DOD, Department of Defense, Fiscal Year (FY) 2024 Budget Estimates, Navy Justification Book Volume 2 of 5,~~
~~Research, Development, Test & Evaluation, Navy, March 2023, p. 962, at~~
~~https://www.secnav.navy.mil/fmc/fmb/Documents/24pres/RDTEN_BA4_Book.pdf.~~
~~Congressional Research Service~~

15

~~link to page 17~~ ~~Department of Defense Directed Energy Weapons: Background and Issues for Congress~~

~~ground targets and low-cost unmanned aerial targets.”79 HELCAP~~ experimentation is to continue experimentation is to continue
through at least through at least ~~FY2028.80~~FY2026.85
Layered Laser Defense (LLD) System
An additional Navy laser development effort (not shown i An additional Navy laser development effort (not shown in Figure 9) is called the Layered Laser is called the Layered Laser
Defense (LLD) system. A March 9, 2020, DOD contract award announcement stated that the Defense (LLD) system. A March 9, 2020, DOD contract award announcement stated that the
Navy awarded Lockheed Martin a $22 million contract for Navy awarded Lockheed Martin a $22 million contract for
the integration, demonstration, testing and operation of the Layered Laser Defense (LLD) the integration, demonstration, testing and operation of the Layered Laser Defense (LLD)
weapon system prototype onboard a Navy littoral combat ship [LCS] while that vessel is weapon system prototype onboard a Navy littoral combat ship [LCS] while that vessel is
underway.… Key areas of work to be performed include development of a prototype underway.… Key areas of work to be performed include development of a prototype
structure and enclosure to protect the LLD from ships motion and maritime environment structure and enclosure to protect the LLD from ships motion and maritime environment
in a mission module format; system integration and test with government-furnished in a mission module format; system integration and test with government-furnished
equipment; platform integration and system operational verification and test; systems equipment; platform integration and system operational verification and test; systems
engineering; test planning; data collection and analysis support; and operational engineering; test planning; data collection and analysis support; and operational
demonstration.demonstration.8186
Press reports indicate that the Office of Naval Research—in partnership with Lockheed Martin Press reports indicate that the Office of Naval Research—in partnership with Lockheed Martin
and the Office of the Under Secretary of Defense for Research and Engineering—demonstrated and the Office of the Under Secretary of Defense for Research and Engineering—demonstrated
the system in February 2022 against a “target representing a subsonic cruise missile in flight.”the system in February 2022 against a “target representing a subsonic cruise missile in flight.”8287
The Navy reportedly does not plan to field the LLD.The Navy reportedly does not plan to field the LLD.83
~~Potential Issues and Questions for Congress84~~
~~Technological Maturity~~
~~One question regarding directed energy weapons programs involves their technological maturity,~~
~~including the ability to improve beam quality and control to militarily useful levels, and to meet~~
~~size, weight, and power (SWaP) and cooling requirements for integration into current platforms.85~~
~~Some DE systems are small enough to fit on military vehicles, but many require larger and/or~~
~~fixed platforms that could potentially limit deployment options and operational utility. Congress~~
~~may consider directing DOD to establish metrics for assessing the pace of technological~~

~~79 DOD,~~ ~~Department of Defense, Fiscal Year (FY) 2024~~88 82 DOD, Department of Defense, Fiscal Year (FY) 2024 Budget Estimates, Navy Justification Book Volume 2 of 5, Research, Development, Test & Evaluation, Navy, March 2023, p. 962, at https://www.secnav.navy.mil/fmc/fmb/Documents/24pres/RDTEN_BA4_Book.pdf. 83 DOD, Department of Defense, Fiscal Year (FY) 2024 Budget Estimates, Navy Justification Book Volume 2 of 5, Research, Development, Test & Evaluation, Navy, March 2023, p. 961, at https://www.secnav.navy.mil/fmc/fmb/Documents/24pres/RDTEN_BA4_Book.pdf. 84 DOD, Department of Defense, Fiscal Year (FY) 2025 Budget Estimates, Navy Justification Book Volume 2 of 5, ,
Research, Development, Test & Evaluation, Navy, March Research, Development, Test & Evaluation, Navy, March ~~2023~~2024, p. , p. ~~961~~927, at , at
https://www.secnav.navy.mil/fmc/fmb/Documents/https://www.secnav.navy.mil/fmc/fmb/Documents/~~24pres~~25pres/RDTEN_BA4_Book.pdf./RDTEN_BA4_Book.pdf.
80 85 DOD, DOD, Department of Defense, Fiscal Year (FY) ~~2024~~2025 Budget Estimates, Navy Justification Book Volume 2 of 5, ,
Research, Development, Test & Evaluation, Navy, March Research, Development, Test & Evaluation, Navy, March ~~2023~~2024, p. , p. ~~961~~935, at , at
https://www.secnav.navy.mil/fmc/fmb/Documents/https://www.secnav.navy.mil/fmc/fmb/Documents/~~24pres~~25pres/RDTEN_BA4_Book.pdf./RDTEN_BA4_Book.pdf.
81 86 Department of Defense, “Contracts for March 9, 2020.” See also Rich Abott, “Lockheed Martin Nabs $22 Million Department of Defense, “Contracts for March 9, 2020.” See also Rich Abott, “Lockheed Martin Nabs $22 Million
Contract For Layered Laser Defense Prototype On LCS,” Contract For Layered Laser Defense Prototype On LCS,” Defense Daily, March 16, 2020. , March 16, 2020.
8287 Warren Duffie Jr., “Laser Trailblazer: Navy Conducts Historic Test of New Laser Weapon System,” Office of Naval Warren Duffie Jr., “Laser Trailblazer: Navy Conducts Historic Test of New Laser Weapon System,” Office of Naval
Research, April, 13, 2022, at https://www.navy.mil/Press-Office/News-Stories/Article/2998829/laser-trailblazer-navy-Research, April, 13, 2022, at https://www.navy.mil/Press-Office/News-Stories/Article/2998829/laser-trailblazer-navy-
conducts-historic-test-of-new-laser-weapon-system/. conducts-historic-test-of-new-laser-weapon-system/.
8388 Warren Duffie Jr., “Laser Trailblazer: Navy Conducts Historic Test of New Laser Weapon System,” Office of Naval Warren Duffie Jr., “Laser Trailblazer: Navy Conducts Historic Test of New Laser Weapon System,” Office of Naval
Research, April, 13, 2022, at https://www.navy.mil/Press-Office/News-Stories/Article/2998829/laser-trailblazer-navy-Research, April, 13, 2022, at https://www.navy.mil/Press-Office/News-Stories/Article/2998829/laser-trailblazer-navy-
conducts-historic-test-of-new-laser-weapon-system/. conducts-historic-test-of-new-laser-weapon-system/.
~~84 This section was written by Kelley M. Sayler, CRS Analyst in Advanced Technology and Global Security, and John~~
~~R. Hoehn, CRS Analyst in Military Capabilities and Programs.~~
~~85 Ariel Robinson, “Directed Energy Weapons: Will They Ever Be Ready?,” National Defense, July 1, 2015, at~~
~~https://www.nationaldefensemagazine.org/articles/2015/7/1/2015july-directed-energy-weapons-will-they-ever-be-~~
~~ready.~~
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Congressional Research Service 16 Department of Defense Directed Energy Weapons: Background and Issues for Congress Potential Issues and Questions for Congress89 Technological Maturity One question regarding directed energy weapons programs involves their technological maturity, including the ability to improve beam quality and control to militarily useful levels, and to meet size, weight, and power (SWaP) and cooling requirements for integration into current platforms.90 Some DE systems are small enough to fit on military vehicles, but many require larger and/or fixed platforms that could potentially limit deployment options and operational utility. Congress may consider directing DOD to establish metrics for assessing the pace of technological advancement. In what ways, if any, are DOD technology maturation efforts reducing the SWaP advancement. In what ways, if any, are DOD technology maturation efforts reducing the SWaP
and cooling requirements of DE systems? and cooling requirements of DE systems?
Cost
The United States has been researching directed energy since the 1960s, yet some experts have The United States has been researching directed energy since the 1960s, yet some experts have
observed that “actual directed-energy programs … have frequently fallen short of expectations,” observed that “actual directed-energy programs … have frequently fallen short of expectations,”
with DOD investing billions of dollars in programs that failed to reach maturity and were with DOD investing billions of dollars in programs that failed to reach maturity and were
ultimately cancelled.ultimately cancelled.8691 Directed energy weapons may therefore require greater up-front Directed energy weapons may therefore require greater up-front
investment than traditional kinetic weapons in order to field a successful weapons system. investment than traditional kinetic weapons in order to field a successful weapons system.
Congress may consider requesting an independent assessment of the technological maturity and Congress may consider requesting an independent assessment of the technological maturity and
life cycle cost estimates for various DE weapons, as well as a comparative assessment of costs of life cycle cost estimates for various DE weapons, as well as a comparative assessment of costs of
DE weapons versus comparable kinetic weapons. How do estimates of the total lifecycle costs of DE weapons versus comparable kinetic weapons. How do estimates of the total lifecycle costs of
DE weapons compare with those of their kinetic counterparts? Does the technological maturity of DE weapons compare with those of their kinetic counterparts? Does the technological maturity of
DE weapons warrant current funding levels? DE weapons warrant current funding levels?
Weapons Characteristics
Although DE weapons may offer a lower cost per shot than traditional weapons such as missiles, Although DE weapons may offer a lower cost per shot than traditional weapons such as missiles,
DE weapons are subject to limitations. For example, atmospheric conditions (e.g., rain, fog, DE weapons are subject to limitations. For example, atmospheric conditions (e.g., rain, fog,
obscurants) and SWaP and cooling requirements can limit the range and beam quality of DE obscurants) and SWaP and cooling requirements can limit the range and beam quality of DE
weapons, in turn reducing their effectiveness. Traditional weapons, in contrast, are less affected weapons, in turn reducing their effectiveness. Traditional weapons, in contrast, are less affected
by these factors.by these factors.8792 Furthermore, DE weapons may be more difficult to maintain than traditional Furthermore, DE weapons may be more difficult to maintain than traditional
weapons. As the Government Accountability Office notes, “the internal mechanisms for DE weapons. As the Government Accountability Office notes, “the internal mechanisms for DE
weapons are sensitive, and typically require a specialized clean room for repairs.”weapons are sensitive, and typically require a specialized clean room for repairs.”~~88 Such~~
~~challenges could impact their sustainability in the field.89 How, if at all, might the limitations of~~
~~DE weapons be mitigated by technological developments such as adaptive optics, concepts of~~
~~operation, or other methods? What impact might a failure to mitigate these limitations have on~~
~~future military operations?~~
~~Mission Utility~~
~~Given the strengths and weaknesses of DE weapons, DOD is conducting multiple utility studies~~
~~to analyze potential concepts of operation for DE weapons and to assess the scenarios in which~~
~~they might be militarily useful.90 How might Congress draw upon the conclusions of these~~
~~analyses as it conducts oversight of DE weapons programs? What is the appropriate balance~~
~~between DE weapons and traditional munitions within the military’s portfolio of capabilities?~~

8693 Such 89 This section was written by Kelley M. Sayler, CRS Analyst in Advanced Technology and Global Security, and John R. Hoehn, CRS Analyst in Military Capabilities and Programs. 90 Ariel Robinson, “Directed Energy Weapons: Will They Ever Be Ready?,” National Defense, July 1, 2015, at https://www.nationaldefensemagazine.org/articles/2015/7/1/2015july-directed-energy-weapons-will-they-ever-be-ready. 91 Paul Scharre, Paul Scharre, Directed-Energy Weapons: Promise and Prospects, Center for a New American Security, April 2015, , Center for a New American Security, April 2015,
p. 4. p. 4.
8792 Ariel Robinson, “Directed Energy Weapons: Will They Ever Be Ready?,” Ariel Robinson, “Directed Energy Weapons: Will They Ever Be Ready?,” National Defense, July 1, 2015, at , July 1, 2015, at
https://www.nationaldefensemagazine.org/articles/2015/7/1/2015july-directed-energy-weapons-will-they-ever-be-https://www.nationaldefensemagazine.org/articles/2015/7/1/2015july-directed-energy-weapons-will-they-ever-be-
ready; and David Vergun, “Army developing lasers that pierce fog, dust to destroy targets,” ready; and David Vergun, “Army developing lasers that pierce fog, dust to destroy targets,” Army News Service, ,
October 23, 2017, at https://www.army.mil/article/195650/October 23, 2017, at https://www.army.mil/article/195650/
army_developing_lasers_that_pierce_fog_dust_to_destroy_targets. army_developing_lasers_that_pierce_fog_dust_to_destroy_targets.
8893 Government Accountability Office, Government Accountability Office, Directed Energy Weapons: DOD Should Focus Transition on Planning, April , April
2023, p. 22. 2023, p. 22.
~~89 See Jen Judson, “US Army working through challenges with laser weapons,” Defense News, August 11, 2023,~~
~~https://www.defensenews.com/land/2023/08/11/us-army-working-through-challenges-with-laser-weapons/.~~
~~90 Dr. Jim Trebes, “Advancing High Energy Laser Weapon Capabilities: What is OUSD (R&E) Doing?,” presentation~~
~~at IDGA, October 21, 2020.~~
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Congressional Research Service 17 Department of Defense Directed Energy Weapons: Background and Issues for Congress challenges could impact their sustainability in the field.94 How, if at all, might the limitations of DE weapons be mitigated by technological developments such as adaptive optics, concepts of operation, or other methods? What impact might a failure to mitigate these limitations have on future military operations? Mission Utility Given the strengths and weaknesses of DE weapons, DOD is conducting multiple utility studies to analyze potential concepts of operation for DE weapons and to assess the scenarios in which they might be militarily useful.95 How might Congress draw upon the conclusions of these analyses as it conducts oversight of DE weapons programs? What is the appropriate balance between DE weapons and traditional munitions within the military’s portfolio of capabilities?
Defense Industrial Base
Some analysts have expressed concerns that, in the past, DOD did not provide stable funding for Some analysts have expressed concerns that, in the past, DOD did not provide stable funding for
DE weapons programs or sufficient opportunities for the DE workforce. Acknowledging these DE weapons programs or sufficient opportunities for the DE workforce. Acknowledging these
concerns, DODconcerns, DOD’s former Principal Director for Directed Energy Principal Director for Directed Energy, Dr. Jim Trebes Dr. Jim Trebes, has stated that, although has stated that, although
he believes the DE industrial base is currently healthy, its capacity could be strained in the future he believes the DE industrial base is currently healthy, its capacity could be strained in the future
if DOD begins to buy larger numbers of DE systems. Dr. Trebes has noted that although today’s if DOD begins to buy larger numbers of DE systems. Dr. Trebes has noted that although today’s
DE workforce is sufficient, it may face a demographic problem in the future due to retirement.DE workforce is sufficient, it may face a demographic problem in the future due to retirement.91
96 According to OUSD(R&E), HELSI is intended to address such concerns about the future of the According to OUSD(R&E), HELSI is intended to address such concerns about the future of the
DE industrial base by providing industry with assured prototyping opportunities. In what ways, if DE industrial base by providing industry with assured prototyping opportunities. In what ways, if
any, has HELSI strengthened the defense industrial base for DE weapons? What, if any, any, has HELSI strengthened the defense industrial base for DE weapons? What, if any,
challenges does the base continue to face, and how might they be mitigated? challenges does the base continue to face, and how might they be mitigated?
Intelligence Requirements
Some analysts have questioned whether DOD has sufficient knowledge of adversary DE weapons Some analysts have questioned whether DOD has sufficient knowledge of adversary DE weapons
systems and materials to develop its own weapons requirements. DOD is currently attempting to systems and materials to develop its own weapons requirements. DOD is currently attempting to
further define its DE collection requirements for the intelligence community (IC) through the further define its DE collection requirements for the intelligence community (IC) through the
Directed Energy Lethality Intelligence initiative.Directed Energy Lethality Intelligence initiative.9297 To what extent, if at all, is this initiative To what extent, if at all, is this initiative
improving connectivity between DOD’s DE community and the IC? What collection improving connectivity between DOD’s DE community and the IC? What collection
requirements, if any, remain? requirements, if any, remain?
Coordination Within DOD
Pursuant to Section 219 of the FY2017 National Defense Authorization Act (NDAA) (P.L. 114-Pursuant to Section 219 of the FY2017 National Defense Authorization Act (NDAA) (P.L. 114-
328), OUSD(R&E)’s Principal Director for Directed Energy is tasked with coordinating DE 328), OUSD(R&E)’s Principal Director for Directed Energy is tasked with coordinating DE
efforts across DOD and with developing DOD’s Directed Energy Roadmap, which is to guide efforts across DOD and with developing DOD’s Directed Energy Roadmap, which is to guide
development efforts. Section 215 of the FY2020 NDAA (P.L. 116-283) established a Directed development efforts. Section 215 of the FY2020 NDAA (P.L. 116-283) established a Directed
94 See Jen Judson, “US Army working through challenges with laser weapons,” Defense News, August 11, 2023, https://www.defensenews.com/land/2023/08/11/us-army-working-through-challenges-with-laser-weapons/. 95 Dr. Jim Trebes, “Advancing High Energy Laser Weapon Capabilities: What is OUSD (R&E) Doing?,” presentation at IDGA, October 21, 2020. 96 CRS conversation with then-Principal Director for Directed Energy Dr. Jim Trebes, November 17, 2020. See also Dr. Jim Trebes, “Advancing High Energy Laser Weapon Capabilities: What is OUSD (R&E) Doing?,” presentation at IDGA, October 21, 2020. 97 Dr. Jim Trebes, “Advancing High Energy Laser Weapon Capabilities: What is OUSD (R&E) Doing?,” presentation at IDGA, October 21, 2020. Congressional Research Service 18 Department of Defense Directed Energy Weapons: Background and Issues for Congress Energy Working Group to “analyze and evaluate the current and planned directed energy Energy Working Group to “analyze and evaluate the current and planned directed energy
programs of each of the military departments ... [and] make recommendations to the Secretary of programs of each of the military departments ... [and] make recommendations to the Secretary of
Defense.” These recommendations are intended to improve DOD DE coordination activities and Defense.” These recommendations are intended to improve DOD DE coordination activities and
accelerate the fielding of DE capabilities. To what extent are the military departments and defense accelerate the fielding of DE capabilities. To what extent are the military departments and defense
agencies adhering to OUSD(R&E)’s roadmap? What, if any, additional authorities or structural agencies adhering to OUSD(R&E)’s roadmap? What, if any, additional authorities or structural
changes would be required to ensure proper implementation of the roadmap and execution of the changes would be required to ensure proper implementation of the roadmap and execution of the
working group’s recommendations? working group’s recommendations?
Arms Control
DE weapons “are not authoritatively defined under international law, nor are they currently on the DE weapons “are not authoritatively defined under international law, nor are they currently on the
agenda of any existing multilateral mechanism.”agenda of any existing multilateral mechanism.”9398 However, some applications of DE weapons However, some applications of DE weapons
are prohibited. Article 1 of the Protocol on Blinding Lasers prohibits the employment of “laser are prohibited. Article 1 of the Protocol on Blinding Lasers prohibits the employment of “laser

~~91 CRS conversation with then-Principal Director for Directed Energy Dr. Jim Trebes, November 17, 2020. See also Dr.~~
~~Jim Trebes, “Advancing High Energy Laser Weapon Capabilities: What is OUSD (R&E) Doing?,” presentation at~~
~~IDGA, October 21, 2020.~~
~~92 Dr. Jim Trebes, “Advancing High Energy Laser Weapon Capabilities: What is OUSD (R&E) Doing?,” presentation~~
~~at IDGA, October 21, 2020.~~
~~93 “Directed Energy Weapons: Discussion paper for the Convention on Certain Conventional Weapons (CCW),”~~
~~Article 36, November 2017.~~
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weapons specifically designed, as their sole combat function or as one of their combat functions, weapons specifically designed, as their sole combat function or as one of their combat functions,
to cause permanent blindness to unenhanced vision.”to cause permanent blindness to unenhanced vision.”9499
Some analysts have suggested that additional multilateral agreements should be considered. For Some analysts have suggested that additional multilateral agreements should be considered. For
example, Congress may consider prohibitions on nonlethal anti-personnel uses of DE weapons—example, Congress may consider prohibitions on nonlethal anti-personnel uses of DE weapons—
such as “heat rays”such as “heat rays”95100 or lasers intended to cause temporary visual impairment—or on certain or lasers intended to cause temporary visual impairment—or on certain
military applications of DE weapons—such as aircraft interference—in peacetime.military applications of DE weapons—such as aircraft interference—in peacetime.96101 Other Other
analysts have argued that DE weapons could be considered more humane than conventional analysts have argued that DE weapons could be considered more humane than conventional
weapons because their accuracy could reduce collateral damage and because they could provide a weapons because their accuracy could reduce collateral damage and because they could provide a
nonlethal anti-personnel capability in circumstances when lethal force might otherwise be used.nonlethal anti-personnel capability in circumstances when lethal force might otherwise be used.97102
In what circumstances and for what purposes should the U.S. military’s use of DE weapons be In what circumstances and for what purposes should the U.S. military’s use of DE weapons be
permissible? What, if any, regulations, treaties, or other measures should the United States permissible? What, if any, regulations, treaties, or other measures should the United States
consider regarding the use of DE weapons in both war and peacetime? consider regarding the use of DE weapons in both war and peacetime?

9498 “Directed Energy Weapons: Discussion paper for the Convention on Certain Conventional Weapons (CCW),” Article 36, November 2017. 99 The protocol does not cover the development, procurement, or possession of such weapons, nor does it prohibit the The protocol does not cover the development, procurement, or possession of such weapons, nor does it prohibit the
employment of laser weapons that may cause blindness “as an incidental or collateral effect.” employment of laser weapons that may cause blindness “as an incidental or collateral effect.” Additional Protocol to
the Convention on Prohibitions or Restrictions on the Use of Certain Conventional Weapons Which May Be Deemed to
Be Excessively Injurious or to Have Indiscriminate Effects, Vienna, October 13, 1995, United Nations, Treaty Series, , Vienna, October 13, 1995, United Nations, Treaty Series,
vol. 1380, p. 370, at https://treaties.un.org/doc/Treaties/1995/10/19951013%2001-30%20AM/Ch_XXVI_02_ap.pdf. vol. 1380, p. 370, at https://treaties.un.org/doc/Treaties/1995/10/19951013%2001-30%20AM/Ch_XXVI_02_ap.pdf.
For additional information about the protocol and its relationship to DE weapons programs, see Appendix I of CRS For additional information about the protocol and its relationship to DE weapons programs, see Appendix I of CRS
Report R41526, Report R41526, Navy Shipboard Lasers for Surface, Air, and Missile Defense: Background and Issues for Congress, by , by
Ronald O'Rourke. Ronald O'Rourke.
95100 See “Active Denial Technology: Fact Sheet,” Joint Intermediate Force Capabilities Office, May 11, 2020, at See “Active Denial Technology: Fact Sheet,” Joint Intermediate Force Capabilities Office, May 11, 2020, at
https://jnlwp.defense.gov/Press-Room/Fact-Sheets/Article-View-Fact-sheets/Article/577989/active-denial-technology/. https://jnlwp.defense.gov/Press-Room/Fact-Sheets/Article-View-Fact-sheets/Article/577989/active-denial-technology/.
96101 Patrick M. Cronin and Ryan D. Neuhard, “Countering China’s Laser Offensive,” Patrick M. Cronin and Ryan D. Neuhard, “Countering China’s Laser Offensive,” The Diplomat, April 2, 2020, at , April 2, 2020, at
https://thediplomat.com/2020/04/countering-chinas-laser-offensive/. https://thediplomat.com/2020/04/countering-chinas-laser-offensive/.
97102 See, for example, Mark Gunzinger and Chris Dougherty, See, for example, Mark Gunzinger and Chris Dougherty, Changing the Game: The Promise of Directed-Energy
Weapons, Center for Strategic and Budgetary Assessments, April 19, 2021, at https://csbaonline.org/uploads/, Center for Strategic and Budgetary Assessments, April 19, 2021, at https://csbaonline.org/uploads/
documents/CSBA_ChangingTheGame_ereader.pdf. documents/CSBA_ChangingTheGame_ereader.pdf.
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Appendix A. Potential Advantages and Limitations
of Directed Energy ~~Weapons98~~Weapons103
This appendix provides additional information on potential advantages and limitations of High-This appendix provides additional information on potential advantages and limitations of High-
Energy Laser (HEL) and High-Powered Microwave (HPM) weapons. The advantages and Energy Laser (HEL) and High-Powered Microwave (HPM) weapons. The advantages and
limitations of any HEL or HPM weapons would be specific to the system; as such, all advantages limitations of any HEL or HPM weapons would be specific to the system; as such, all advantages
and limitations might not equally apply to each system. and limitations might not equally apply to each system.
Potential Advantages of HEL Weapons
In addition to deeper magazines, lower logistics requirements, and lower costs per shot, potential In addition to deeper magazines, lower logistics requirements, and lower costs per shot, potential
advantages of HEL weapons include the following: advantages of HEL weapons include the following:
• • Fast engagement times. Light from a laser beam can reach a target almost Light from a laser beam can reach a target almost
instantly, thereby eliminating the need to calculate an intercept course, as instantly, thereby eliminating the need to calculate an intercept course, as
interceptor missiles must do. By remaining focused on a particular spot on the interceptor missiles must do. By remaining focused on a particular spot on the
target, a laser can cause disabling damage to the target within seconds, depending target, a laser can cause disabling damage to the target within seconds, depending
on the laser power. After disabling one target, a laser can be redirected to another on the laser power. After disabling one target, a laser can be redirected to another
target in several seconds. target in several seconds.
• • Ability to counter radically maneuvering missiles. HEL weapons can follow HEL weapons can follow
and maintain their beam on radically maneuvering missiles that might stress the and maintain their beam on radically maneuvering missiles that might stress the
maneuvering capabilities of kinetic interceptors. maneuvering capabilities of kinetic interceptors.
• • Precision engagements. HEL weapons are precision-engagement weapons—the HEL weapons are precision-engagement weapons—the
area irradiated by the laser, which might be several millimeters to several inches area irradiated by the laser, which might be several millimeters to several inches
in diameter, affects what it hits, while generally not affecting (at least not in diameter, affects what it hits, while generally not affecting (at least not
directly) separate nearby objects. directly) separate nearby objects.
• • Graduated responses. HEL weapons can perform functions other than HEL weapons can perform functions other than
destroying targets, including detecting and monitoring targets and producing destroying targets, including detecting and monitoring targets and producing
nonlethal effects, including reversible jamming of electro-optic (EO) sensors. nonlethal effects, including reversible jamming of electro-optic (EO) sensors.
HELs offer the potential for graduated responses that range from warning targets HELs offer the potential for graduated responses that range from warning targets
to reversibly jamming their systems, to causing limited but not disabling damage to reversibly jamming their systems, to causing limited but not disabling damage
(as a further warning), and then finally causing disabling damage. (as a further warning), and then finally causing disabling damage.
Potential Limitations of HEL Weapons
Potential limitations of HEL weapons include the following: Potential limitations of HEL weapons include the following:
• • Line of sight. Since laser light passes through the atmosphere on an essentially Since laser light passes through the atmosphere on an essentially
straight path, HEL weapons would be limited to line-of-sight engagements, and straight path, HEL weapons would be limited to line-of-sight engagements, and
consequently could not counter over-the-horizon targets or targets obscured by consequently could not counter over-the-horizon targets or targets obscured by
intervening objects. As a result, potential engagement ranges against certain intervening objects. As a result, potential engagement ranges against certain
targets (e.g., low-flying targets) would be limited. targets (e.g., low-flying targets) would be limited.
• • Atmospheric absorption, scattering, and turbulence. Substances in the Substances in the
atmosphere—particularly water vapor, but also sand, dust, salt particles, smoke, atmosphere—particularly water vapor, but also sand, dust, salt particles, smoke,
and other air pollution—absorb and scatter light, and atmospheric turbulence can and other air pollution—absorb and scatter light, and atmospheric turbulence can
defocus a laser beam. These effects can reduce the effective range of an HEL defocus a laser beam. These effects can reduce the effective range of an HEL

98103 This appendix was written by Ronald O’Rourke (HEL weapons) and Andrew Feickert (HPM weapons), CRS This appendix was written by Ronald O’Rourke (HEL weapons) and Andrew Feickert (HPM weapons), CRS
Specialist in Naval Affairs and CRS Specialist in Military Ground Forces, respectively. Specialist in Naval Affairs and CRS Specialist in Military Ground Forces, respectively.
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weapon. Absorption by water vapor is a particular consideration for shipboard weapon. Absorption by water vapor is a particular consideration for shipboard
lasers because marine environments feature substantial amounts of water vapor in lasers because marine environments feature substantial amounts of water vapor in
the air. There are certain wavelengths of light (i.e., “sweet spots” in the the air. There are certain wavelengths of light (i.e., “sweet spots” in the
electromagnetic spectrum) where atmospheric absorption by water vapor is electromagnetic spectrum) where atmospheric absorption by water vapor is
markedly reduced. Lasers can be designed to emit light at or near those sweet markedly reduced. Lasers can be designed to emit light at or near those sweet
spots, so as to maximize their potential effectiveness. Absorption generally grows spots, so as to maximize their potential effectiveness. Absorption generally grows
with distance to target, making it in general less of a potential problem for short-with distance to target, making it in general less of a potential problem for short-
range operations than for longer-range operations. Adaptive optics, which make range operations than for longer-range operations. Adaptive optics, which make
rapid, fine adjustments to a laser beam on a continuous basis in response to rapid, fine adjustments to a laser beam on a continuous basis in response to
observed turbulence, can counteract the effects of atmospheric turbulence. Even observed turbulence, can counteract the effects of atmospheric turbulence. Even
so, lasers might not work well, or at all, in rain or fog, preventing lasers from so, lasers might not work well, or at all, in rain or fog, preventing lasers from
being an all-weather solution. being an all-weather solution.
• • Thermal blooming. A laser that continues firing in the same exact direction for a A laser that continues firing in the same exact direction for a
certain amount of time can heat up the air it is passing through, which in turn can certain amount of time can heat up the air it is passing through, which in turn can
defocus the laser beam, reducing its ability to disable the intended target. This defocus the laser beam, reducing its ability to disable the intended target. This
effect, called effect, called thermal blooming, can make lasers less effective for countering , can make lasers less effective for countering
targets that are coming straight at them, on a constant bearing (i.e., “down-the-targets that are coming straight at them, on a constant bearing (i.e., “down-the-
throat” shots). Most tests of laser systems have been against crossing targets throat” shots). Most tests of laser systems have been against crossing targets
rather than “down-the-throat” shots. In general, thermal blooming becomes more rather than “down-the-throat” shots. In general, thermal blooming becomes more
of a concern as the power of the laser beam increases. of a concern as the power of the laser beam increases.
• • Saturation attacks. Since a HEL weapon can attack only one target at a time, Since a HEL weapon can attack only one target at a time,
requires several seconds to disable the target, and requires several more to be requires several seconds to disable the target, and requires several more to be
redirected to the next one, a HEL weapon can disable only so many targets within redirected to the next one, a HEL weapon can disable only so many targets within
a given period of time. This places an upper limit on the ability of an individual a given period of time. This places an upper limit on the ability of an individual
laser to deal with saturation attacks—attacks by multiple weapons that approach laser to deal with saturation attacks—attacks by multiple weapons that approach
the platform simultaneously or within a few seconds of one another. This the platform simultaneously or within a few seconds of one another. This
limitation can be mitigated by installing more than one laser on the platform, up limitation can be mitigated by installing more than one laser on the platform, up
to space and energy availability. to space and energy availability.
• • Hardened targets and countermeasures. Less powerful lasers—that is, lasers Less powerful lasers—that is, lasers
with beam powers measured in kilowatts (kW) rather than megawatts (MW)— with beam powers measured in kilowatts (kW) rather than megawatts (MW)—
can be less effective against targets that incorporate shielding, ablative material, can be less effective against targets that incorporate shielding, ablative material,
or highly reflective surfaces, or that tumble or rotate rapidly (so that the laser or highly reflective surfaces, or that tumble or rotate rapidly (so that the laser
spot does not remain continuously on a single location on the target’s surface). spot does not remain continuously on a single location on the target’s surface).
Smoke or other obscurants can reduce the susceptibility of a target platform to Smoke or other obscurants can reduce the susceptibility of a target platform to
laser attack. Such measures, however, can increase the cost and/or weight of the laser attack. Such measures, however, can increase the cost and/or weight of the
target platform. target platform.
Potential Advantages of HPM Weapons
In addition to deep magazines, low costs per shot, fast engagement times, and graduated In addition to deep magazines, low costs per shot, fast engagement times, and graduated
responses, potential advantages of HPM weapons include the following: responses, potential advantages of HPM weapons include the following:
• • Temporary or system-specific effects. HPM weapons can generate waves at HPM weapons can generate waves at
different frequencies and power levels to temporarily or permanently disrupt different frequencies and power levels to temporarily or permanently disrupt
targeted electronic systems while leaving others unaffected. targeted electronic systems while leaving others unaffected.
• • Broad effects. HPM weapons can destroy a wide array of unshielded electronic HPM weapons can destroy a wide array of unshielded electronic
systems, including both military and commercial systems. In addition, they are systems, including both military and commercial systems. In addition, they are
capable of disabling any unshielded electronic system within their capable of disabling any unshielded electronic system within their
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electromagnetic cone (i.e., they can disable numerous systems, including swarms electromagnetic cone (i.e., they can disable numerous systems, including swarms
of UAS, at once). of UAS, at once).
• • Nonlethal applications. Certain HPM weapons, such as “heat rays,” could Certain HPM weapons, such as “heat rays,” could
provide a nonlethal anti-personnel capability in circumstances in which lethal provide a nonlethal anti-personnel capability in circumstances in which lethal
force might otherwise be used. force might otherwise be used.
• • Limitation of collateral damage. HPM weapons would generate little to no HPM weapons would generate little to no
collateral damage of physical structures. collateral damage of physical structures.99104 This feature could make them This feature could make them
attractive weapons in urban areas or in situations “short of war.” attractive weapons in urban areas or in situations “short of war.”
Potential Limitations of HPM Weapons
Potential limitations of HPM weapons include the following: Potential limitations of HPM weapons include the following:
• • Range constraints. Because HPM beams are more diffuse than lasers and cannot Because HPM beams are more diffuse than lasers and cannot
be as tightly focused, the “energy per unit area in HPM beams decreases be as tightly focused, the “energy per unit area in HPM beams decreases
significantly over distance.”significantly over distance.”~~100~~105 This characteristic could limit the range at which This characteristic could limit the range at which
HPM weapons are operationally effective. HPM weapons are operationally effective.
• • Potential for fratricide. Because HPM weapons could affect all unshielded Because HPM weapons could affect all unshielded
electronic systems within range, measures must be taken to ensure that friendly electronic systems within range, measures must be taken to ensure that friendly
systems are properly shielded or kept outside of the weapon’s range when the systems are properly shielded or kept outside of the weapon’s range when the
weapon is in use. weapon is in use.
• • Effectiveness of countermeasures. Because electromagnetic radiation can be Because electromagnetic radiation can be
absorbed by shielding, HPM weapons may not be effective against shielded absorbed by shielding, HPM weapons may not be effective against shielded
targets. targets.

99104 Anti-personnel HPM weapons could not, however, discriminate between military personnel and civilians and could Anti-personnel HPM weapons could not, however, discriminate between military personnel and civilians and could
therefore impact civilians within the weapon’s electromagnetic cone. Similarly, HPM weapons used against military therefore impact civilians within the weapon’s electromagnetic cone. Similarly, HPM weapons used against military
electronic equipment could disable unshielded civilian equipment. electronic equipment could disable unshielded civilian equipment.
~~100~~105 Mark Gunzinger and Chris Dougherty, Mark Gunzinger and Chris Dougherty, Changing the Game: The Promise of Directed-Energy Weapons, Center for , Center for
Strategic and Budgetary Assessments, April 19, 2021, p. 39, at https://csbaonline.org/uploads/documents/Strategic and Budgetary Assessments, April 19, 2021, p. 39, at https://csbaonline.org/uploads/documents/
CSBA_ChangingTheGame_ereader.pdf. CSBA_ChangingTheGame_ereader.pdf.
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Appendix B. Funding for Directed Energy Programs Table B-1. Funding for Directed Energy Programs (FY2023-FY2025) (in millions of dollars) FY2023 FY2024 FY2025 Military President’s President’s President’s Department Budget Appropriation Budget Appropriation Budget Army 557.8 772.8 249.9 337.2 167.9 Navy 152.2 181.2 119.7 137.2 82.4 Air Force 318.2 343.2 291.9 288.4 217.1 Defense-wide 306.1 352.6 321.7 353.7 316.6 Total 1334.3 1649.8 962.4 1116.5 789.7 Source: CRS correspondence with the Office of the Under Secretary of Defense for Research and Engineering, April 30, 2024. Note: This table does not include funding for classified programs. Author Information Kelley M. Sayler, Coordinator Andrew Feickert

~~Author Information~~

~~Kelley M. Sayler, Coordinator~~
~~Ronald O'Rourke~~
Specialist in Advanced Technology and Global Specialist in Advanced Technology and Global
Specialist in Specialist in ~~Naval Affairs~~Military Ground Forces
Security Security

~~Andrew Feickert~~

~~Specialist in Military Ground Forces~~

Jennifer DiMascio Ronald O'Rourke Analyst in U.S. Defense Policy Specialist in Naval Affairs

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