Order Code IB93062
CRS Issue Brief for Congress
Received through the CRS Web
Space Launch Vehicles:
Government Activities,
Commercial Competition,
and Satellite Exports
Updated July 11, 2003
Marcia S. Smith
Resources, Science, and Industry Division
Congressional Research Service ˜ The Library of Congress

CONTENTS
SUMMARY
MOST RECENT DEVELOPMENTS
BACKGROUND AND ANALYSIS
U.S. Launch Vehicle Policy
From “Shuttle-Only” to “Mixed Fleet”
Clinton Administration Policy
George W. Bush Administration Activity
U.S. Launch Vehicle Programs and Issues
NASA’s Space Shuttle Program
DOD’s Evolved Expendable Launch Vehicle (EELV) Program
NASA’s Efforts to Develop New Reusable Launch Vehicles (RLVs)
X-33 and X-34
Space Launch Initiative (SLI)
Private Sector RLV Development Efforts
U.S. Commercial Launch Services Industry
Congressional Interest
Foreign Competition (Including Satellite Export Issues)
Europe
China
Russia
Ukraine
India
Japan
LEGISLATION


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Space Launch Vehicles: Government Activities, Commercial
Competition, and Satellite Exports
SUMMARY
Launching satellites into orbit, once the
plans to refocus its latest RLV development
exclusive domain of the U.S. and Soviet gov-
program, the Space Launch Initiative, towards
ernments, today is an industry in which compa-
building an Orbital Space Plane to take crews
nies in the United States, Europe, China, Rus-
to and from the space station.
It will be
sia, Ukraine, Japan, and India compete. In the
launched on an EELV rather than a new RLV.
United States, the National Aeronautics and
NASA also said it would continue to rely on
Space Administration (NASA) continues to be
the shuttle until at least 2015, instead of 2012.
responsible for launches of its space shuttle,
and the Air Force has responsibility for
On February 1, 2003, the space shuttle
launches associated with U.S. military and
Columbia broke apart as it descended from
intelligence satellites, but all other launches are
orbit. All seven astronauts aboard died. How
conducted by private sector companies. Since
that will affect NASA’s plans for the shuttle,
the early 1980s, Congress and successive
and the space program as a whole, is difficult
Administrations have taken actions, including
to assess at this time.
passage of several laws, to facilitate the U.S.
commercial space launch services business.
DOD’s new EELVs (Atlas 5 and Delta 4)
The Federal Aviation Administration (FAA)
were successfully launched in 2002, but the
regulates the industry.
companies that built the vehicles are seeking
additional DOD funding to defray their costs
During the mid-1990s, demand for
in the wake of diminished commercial de-
launching commercial communications satel-
mand.
DOD included $157 million in its
lites was forecast to grow significantly through
FY2004 request for that purpose (as part of a
the early 21st Century. Those forecasts sparked
total
of
$609
million
requested
for
plans to develop new launch vehicles here and
procurement of EELVs).
abroad. In the United States, NASA and the
Department
of
Defense
(DOD)
created
In the commercial launch services
government-industry partnerships to develop
market, U.S. companies are concerned about
new reusable launch vehicles (RLVs) and
foreign
competition,
particularly
with
“evolved”
expendable
launch
vehicles
countries that have non-market economies
(EELVs), respectively. The U.S. space shuttle
such as China, Russia, and Ukraine. The U.S.
is the only RLV today. All other launch vehi-
has leverage over how these countries
cles are expendable (i.e., they can only be used
compete because almost all commercial
once). Some U.S. private sector companies
satellites
are
U.S.-built
or
have
U.S.
began developing their own launch vehicles
components, and hence require U.S. export
without direct government financial involve-
licenses. Export of U.S.-built satellites to
ment, although some have sought government
China is an issue in terms of whether U.S.
loan guarantees or tax incentives.
satellite manufacturing companies provide
militarily significant information to those
Since 1999, projections for launch ser-
countries in the course of the satellite
vices demand have declined dramatically, and
launches.
NASA’s efforts to develop a new RLV to
replace the shuttle faltered. NASA announced
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˜ The Library of Congress

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MOST RECENT DEVELOPMENTS
The Columbia Accident Investigation Board continues to investigate the February 1,
2003, disintegration of NASA’s space shuttle Columbia as it returned to Earth following a
16-day science mission. CRS Report RS21408 discusses the Columbia tragedy and the
investigation. The shuttle fleet is grounded until the cause of the accident is determined.
Until the cause is known, assessing the ramifications of the tragedy on the space shuttle
program, and on the space program as a whole, is difficult.
NASA’s FY2004 budget request for the shuttle program is $4 billion. The FY2004
request reflects NASA’s shift to full cost accounting, so figures for FY2004 are not directly
comparable to those for FY2003 and prior years (see CRS Report RL31821 for an
explanation of full cost accounting).
NASA also is requesting $1 billion for the Space
Launch Initiative (SLI). The SLI program is currently focused on building an Orbital Space
Plane (OSP) to take crews to and from the space station, and Next Generation Launch
Technology (NGLT) to develop technologies for new expendable and reusable launch
vehicles. The FY2004 SLI request includes $550 million for OSP and $514.5 million for
NGLT.
OSP is not a launch vehicle, however.
It is a spacecraft, and is not further
discussed in this report (see CRS Issue Brief IB93017, Space Stations).
DOD is requesting $609 million for procurement of Evolved Expendable Launch
Vehicles (EELVs), of which $157 million is for “assured access to space.” In this context,
that phrase refers to the premise that it is in the U.S. national security interest to ensure that
the two companies that build EELVs (Boeing and Lockheed Martin) remain in that business.
Thus, DOD essentially is repaying the companies for money they invested in EELV research
and development as part of the cost-sharing plan on which the program was based. In the
FY2004 DOD authorization bill (H.R. 1588), the Senate agreed with that premise, and added
another $60 million; the House approved the requested amount. The House approved the
requested amount in the FY2004 DOD appropriations bill (H. R. 2658), and the Senate
Appropriations Committee recommended the requested amount (S. Rept., 108-87).
BACKGROUND AND ANALYSIS
U.S. Launch Vehicle Policy
The National Aeronautics and Space Administration (NASA) and the Department of
Defense (DOD) have each developed expendable launch vehicles (ELVs) to satisfy their
requirements. NASA also developed the partially reusable space shuttle. DOD developed
the Atlas, Delta, and Titan families of ELVs (called expendable because they can only be
used once) from ballistic missile technology. NASA developed Scout and Saturn, both no
longer produced. Atlas and Titan rockets today are built by Lockheed Martin. Delta is built
by Boeing. Private companies also have developed ELVs: Pegasus and Taurus (Orbital
Sciences Corporation), and Athena (Lockheed Martin). Which launch vehicle is used for a
particular spacecraft initially depends on the size, weight, and destination of the spacecraft.
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From “Shuttle-Only” to “Mixed Fleet”
In 1972, President Nixon approved NASA’s plan to create the first reusable launch
vehicle, called the space shuttle, and directed that it become the nation’s primary launch
vehicle, replacing all the ELVs except Scout (later discontinued for unrelated reasons). This
would have made NASA and DOD dependent on a single launch vehicle, but the resulting
high launch rate was expected to reduce the cost per flight significantly. The shuttle was first
launched in 1981, and was declared operational in 1982. The phase-out of the ELVs began,
but in 1984 the Air Force successfully argued that it needed a “complementary” ELV as a
backup to the shuttle for “assured access to space” and initiated what is now known as the
Titan IV program. Production lines for the Delta and Atlas began to close down, and it was
expected that only the shuttle, Scouts, and Titan IVs would be in use by the mid-1980s.
Everything changed on January 28, 1986, however, when the space shuttle Challenger
exploded 73 seconds after launch. Apart from the human tragedy, the Challenger accident
deeply affected U.S. space launch policy, demonstrating the vulnerability of relying too
heavily on a single system. Many military and civilian satellites had been designed to be
launched on the shuttle, and could not have been transferred to ELVs even if the ELVs were
not already being phased out. The remaining ELVs had their own problems in 1986. A
Titan exploded in April and a Delta failed in May, which also grounded Atlas because of
design similarities. Consequently, the Reagan Administration revised U.S. launch policy
from primary dependence on the shuttle to a “mixed fleet” approach where a wide variety of
launch vehicles are available. The shuttle is used principally for missions that require crew
interaction, while ELVs are used for launching spacecraft. President Reagan also decided
that commercial payloads could not be flown on the shuttle unless they were “shuttle-unique”
(capable of being launched only by the shuttle or requiring crew interaction) or if there were
foreign policy considerations. That action facilitated the emergence of a U.S. commercial
space launch industry whose participants had long argued that they could not compete against
government-subsidized shuttle launch prices. The White House and Congress had taken
steps beginning in 1983 to assist in developing a commercial space launch services business,
including President Reagan’s 1983 designation of the Department of Transportation as the
agency responsible for facilitating and regulating the commercial space launch sector.
Passage of the 1984 Commercial Space Launch Act (P.L. 98- 575), the Commercial Space
Launch Act Amendments of 1988 (P.L. 100-657), and the Commercial Space Act of 1998
(P.L. 105-303) also have helped. But removing the shuttle as a competitor was the major
factor in fostering the U.S. launch businesses.
It is too early to assess what impact the February 1, 2003 space shuttle Columbia
tragedy may have on U.S. space launch policy.
Clinton Administration Policy
On August 5, 1994, President Clinton released a National Space Transportation Policy
that gave DOD lead responsibility for improving ELVs and NASA lead responsibility for
upgrading the space shuttle and technology development of new reusable launch vehicles.
The policy also sets guidelines for the use of foreign launch systems, the use of excess
ballistic missile assets for space launch, and encourages an expanded private sector role in
space transportation R&D.
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George W. Bush Administration Activity
On June 28, 2002, President Bush ordered the National Security Council to chair a
review of several U.S. space policies. The review of space transportation policy was due by
December 31, 2002, but was delayed. Now, it reportedly has been suspended pending
completion of the Columbia investigation.
U.S. Launch Vehicle Programs and Issues
NASA’s Space Shuttle Program
The space shuttle is a partially reusable launch vehicle (the large, cylindrical external
tank is not reused) and is the sole U.S. means for launching humans into orbit. The 1986
Challenger accident and occasional shuttle launch delays led to questions about the reliability
of the shuttle system. Although the shuttle operated for many years without a failure,
concerns remained that cuts to the shuttle budget and associated personnel reductions, and
NASA’s decision to turn much of the ground operations of the shuttle over to a “single prime
contractor,” could affect shuttle safety. In the wake of the February 1, 2003 space shuttle
Columbia tragedy, those questions are being scrutinized. The Columbia tragedy is discussed
in CRS Report RS21408.
NASA signed a $7 billion, 6-year Space Flight Operations Contract (SFOC) with United
Space Alliance (USA)—a joint venture between Boeing and Lockheed Martin—to serve as
single prime contractor on September 26, 1996 with the goal of reducing shuttle operational
costs while ensuring safety. On August 2, 2002, NASA exercised the first of two 2-year
options, extending the contract to September 30, 2004. NASA asserts that SFOC has saved
the agency approximately $1 billion per year. Shuttle appropriations levels for FY1992-
FY2002 are available in CRS Report RS21411. The FY2003 request was $3.2 billion.
Congress approved that level, and added $50 million for the Columbia investigation and
other accident-related expenses, and exempted the shuttle program from the across-the-board
rescission. NASA’s FY2004 budget request shows $3.786 billion as the expected FY2003
funding level because the agency shifted to full cost accounting, which includes personnel
and facility costs in the program’s budget. Previously those costs were accounted for
separately. Thus, FY2004 numbers are not directly comparable to FY2003 figures. With
that in mind, the request for FY2004 is $3.968 billion, which reflects both the change to full
cost accounting, and money added for the shuttle program in light of NASA’s revised
Integrated Space Transportation Plan (ISTP), announced in a November 2002 budget
amendment (prior to the Columbia tragedy).
That budget amendment reflected NASA’s decision to rely on the shuttle longer than
previously planned. NASA had been hoping to build a replacement for the shuttle through
its Space Launch Initiative (SLI) program (see below), with the shuttle phasing out beginning
in 2012.
The debate over retaining shuttle versus building a new vehicle has waged for
years. Shuttle advocates insist that the space shuttle orbiters are less than 30% through their
useful life, and, with adequate upgrades, can operate through 2030. Advocates of a new “2nd
generation” reusable launch vehicle argue that the shuttle is too expensive and must be
replaced by one that is more cost effective. The November 2002 decision was to rely on the
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shuttle until at least 2015, and perhaps 2020 or longer, and to shift $470 million from the SLI
program into the shuttle (FY2003-2007) to extend its lifetime.
NASA created a new line in its budget for a “Shuttle Service Life Extension Program”
that will incorporate funding previously identified for shuttle upgrades. Of the $470 million
NASA plans to add to the shuttle program in the FY2003-2007 period, $236 million is
allocated to the life extension program. What projects will be funded were not specified.
NASA has been engaged in a program of shuttle safety and supportability upgrades for many
years. Debate over shuttle upgrades became more intense during the FY2002 budget cycle
after NASA decided to terminate what it earlier had described as its highest priority safety
upgrade, the Electric Auxiliary Power Unit, because of cost increases and weight gain. Then,
in the original FY2003 budget submission, NASA reduced how much it planned to spend
on both safety and supportability upgrades in the FY2002-2006 time period by 34%— from
$1.836 billion to $1.220 billion. NASA Administrator O’Keefe insisted the proposed
funding level would not compromise safety. In September 2002, NASA canceled its highest
priority supportability upgrade, the Checkout and Launch Control System (CLCS) because
of cost overruns and schedule delays. The independent Aerospace Safety Advisory Panel
(ASAP), which advises NASA on safety issues, concluded in March 2002 that “current and
proposed budgets are not sufficient to improve or even maintain the safety risk levels of
operating the Space Shuttle or the ISS.” The ASAP’s concerns are expected to be thoroughly
reviewed in light of the Columbia tragedy.
The amended budget request also signaled a change in NASA’s projected annual shuttle
launch rate. Historically, shuttles have been launched at a rate of 7-8 per year, but that was
cut to 6 per year, and then to 4 per year, for budgetary reasons. In the amended budget
request, NASA indicated that it would increase the flight rate to 5 per year beginning in 2006
to support the space station program. Without Columbia, the shuttle fleet now consists of
three space shuttle orbiters: Endeavour, Discovery, and Atlantis. What flight rate can be
sustained with three orbiters is a question NASA will have to address.
Shuttle “privatization” has been discussed for many years. The Bush Administration
said it would move forward with privatization, but later changed the terminology to
“competitive sourcing.” Some envision the shuttle someday being operated entirely by the
private sector, similar to an airline, with the government as one customer. Others believe
that the shuttle’s high operational costs will not attract private sector customers, and it will
remain a vehicle used primarily by, and paid for by, the government. Some also point out
that 17,000 contractors work on the shuttle program, and 1,800 civil servants, and thus the
program has been “privatized” to a great extent already.
In the November budget
amendment, NASA said it was “examining options for competing shuttle operations.” What
impact the Columbia tragedy will have on those discussions is unclear.
DOD’s Evolved Expendable Launch Vehicle (EELV) Program
Despite hopes that the space shuttle would reduce the cost of reaching orbit, U.S. launch
systems remain expensive and less efficient and reliable than desired. Thus, efforts continue
to reduce costs for both expendable and reusable U.S. launch systems. DOD and NASA
initiated several efforts in the late 1980s and early 1990s to develop a new ELV system, but
each was terminated in turn because Congress or the agencies themselves were not convinced
that the required investment had sufficient priority. In response to the 1994 Clinton policy,
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two programs were initiated: DOD’s Evolved Expendable Launch Vehicle (EELV) program
and NASA’s Reusable Launch Vehicle (RLV) program (see below).
The EELV program is the successor to several failed attempts to begin new ELV
programs since 1985. DOD began what is now known as the EELV program in FY1995
(P.L. 103-335) with a $30 million appropriation. EELV was first formally identified in
DOD’s FY1996 budget. Two EELVS were developed in joint government-private sector
programs: Boeing’s Delta IV and Lockheed Martin’s Atlas V. Both vehicles were successful
in their first launch attempts in 2002. The goal of the EELV program is to reduce launch
costs by at least 25%.
In 1996, the Air Force selected Lockheed Martin and McDonnell Douglas (later bought
by Boeing) for pre-engineering and manufacturing development contracts worth $60 million.
Originally, one of those companies would have been selected in 1998 to develop the EELV.
In November 1997, responding to indicators at the time that the commercial space launch
market would be larger than expected, DOD announced that it would help fund development
of both the Lockheed Martin and the Boeing vehicles—Atlas V and Delta IV, respectively.
In October 1998, DOD awarded Boeing $1.88 billion for the Delta IV ($500 million for
further development plus $1.38 billion for 19 launches). At the same time, it awarded
Lockheed Martin $1.15 billion for the Atlas V ($500 million for further development plus
$650 million for 9 launches). The companies were expected to pay the rest of the
development costs themselves. The first Atlas 5 was successfully launched in August 2002;
the first Delta 4 launch was successfully launched in November 2002. In 2000, however,
new market forecasts showed a reduction in expected commercial demand, and DOD began
reevaluating its EELV strategy. It renegotiated the contracts with both companies, relieving
Lockheed Martin (reportedly at the company’s request) of the requirement to build a launch
pad at Vandenberg AFB, CA, and shifting two of the launches previously awarded to
Lockheed Martin to Boeing instead. On January 25, 2002, the Wall Street Journal reported
that the companies had approached DOD to obtain “hundreds of millions of government
assistance” because of the downturn in the commercial market. This has come to be known
as “assured access to space” in the sense that ensuring that both companies remain in the
launch vehicle business provides redundancy to DOD in case one of the vehicles experiences
technical difficulties.
In May 2003, Boeing revealed that it is under investigation by the Justice Department
about whether it illegally obtained proprietary information about Lockheed Martin’s EELV
program in the 1996-1999 time frame. Boeing reported that as soon as it became aware, two
were fires and one was suspended. Criminal charges have now been filed against two of
them. According to Space News (June 30, 2003), the Air Force wants to emphasize that
such activities will not be condoned, and may open to competition three contracts for
launches from Vandenberg that the Air Force earlier had indicated would go to Boeing. If
Lockheed Martin were to win such launch contracts, the decision not to build at Atlas launch
pad at Vandenberg may be revisited. The cost and who would pay for it are unclear.
For FY2004, DOD is requesting $8 million for EELV R&D, and $609.3 million for
procurement. Of the $609 million, $157 million is for assured access. The Senate added
another $60 million for assured access in its version of H.R. 1588, the FY2004 DOD
authorization bill, including language that it is U.S. policy to sustain the availability of at
least two space launch vehicles or families of launch vehicles that can launch DOD satellites.
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The House approved the requested amount in its version of the authorization bill (H.R.
1588). The House approved the requested amount in the FY2004 DOD appropriations bill
(H. R. 2658), and the Senate Appropriations Committee recommended the requested amount
(S. Rept. 108-87).
NASA’s Efforts to Develop New Reusable Launch Vehicles (RLVs)
The 1994 Clinton policy gave NASA lead responsibility for technology development
for a next-generation reusable space transportation system. NASA initiated the Reusable
Launch Vehicle (RLV) program to develop and flight test experimental RLVs to form the
basis for next-generation vehicles to replace the space shuttle and replace or augment ELVs.
Proponents believe that RLV technology can dramatically lower the cost of accessing space.
X-33 and X-34. From 1995 to 2000, NASA’s approach to developing new RLVs was
based on establishing new forms of cooperation with industry by sharing the costs of
developing technology with the intent that industry take over development, operation, and
financing of the operational vehicle. Two “X” (for “experimental”) flight test programs were
begun under this philosophy: X-33 and X-34. X-33 was a joint program with Lockheed
Martin to build a subscale prototype of a large RLV based on single-stage-to-orbit (SSTO)
technology. The SSTO concept involves a rocket that can attain orbit with only one stage
(instead of two or more as is common today) carrying people or cargo. X-34 was a small
RLV “testbed” to demonstrate reusable two-stage-to-orbit technologies, which was being
built under a traditional contract with Orbital Sciences Corporation. (Initially, X-34 also was
a government-industry cooperative effort with Orbital and Rockwell International, but those
companies withdrew from the cooperative agreement. NASA then signed a contract with
Orbital for a scaled-back program.)
NASA terminated X-33 and X-34 in March 2001.
NASA spent approximately $1.2 billion on X-33, and Lockheed Martin said that it spent
$356 million of its own funding. Technical problems with the X-33, particularly its new
“aerospike” engines and construction of its composite hydrogen fuel tanks, led to delays in
test flights from 2000 to 2003. NASA concluded that the cost to complete the program was
too high compared to the benefits. X-34 was terminated for similar reasons. NASA spent
$205 million on X-34.
Space Launch Initiative (SLI). Recognizing the problems in the X-33 and X-34
programs, NASA restructured its RLV program in 2000 (as part of its FY2001 budget
request) and initiated the Space Launch Initiative (SLI). NASA now has restructured that
program, too (see below). Originally, the SLI program was working with the private sector
and universities to develop new technologies to allow a decision in 2006 on what new RLV
to develop. The goal of the program was to develop technology for an RLV that would be
“10 times safer and crew survivability 100 times greater, all at one-tenth the cost of today’s
space launch systems.” NASA initially specified that it expected the private sector to pay
some of the development costs, but later conceded that market conditions made it unlikely
the private sector would do so. SLI was budgeted at $4.8 billion from FY2001-2006. For
FY2001, NASA requested and received $290 million. For FY2002, NASA requested $475
million and received $465 million. The original FY2003 budget request was $759.2 million.
The SLI program has been under scrutiny since its beginning. Congressional testimony
by GAO in 2001 (GAO-01-826T) on lessons learned from X-33 and X-34 cautioned NASA
against making similar mistakes with SLI. A September 2002 GAO report highlighted the
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challenges facing the SLI program (GAO-02-1020). The failure of the X-33 and X-34
programs, and of the National AeroSpace Plane (NASP) program before them, has made
some observers skeptical about NASA’s ability to develop a second generation RLV.
NASA Administrator O’Keefe and the Bush Administration apparently agree.
T h e
November 2002 amended FY2003 budget request significantly changes the SLI program. Mr.
O’Keefe was quoted as calling the SLI goal of sharply reducing launch costs “a bumper
sticker” and that he knew of no technology that could achieve that goal. The
Administration’s budget documentation said a new RLV lacks economic justification
because the commercial launch market is too uncertain, and it is premature to base new
requirements on future DOD or NASA missions. It also says that although the SLI program
had estimated the cost of a new RLV at $10 billion (not including the funding spent on SLI),
a new estimate by the SLI program office was $20 billion, and four independent estimates
sponsored by NASA suggested $30-35 billion. Therefore NASA concluded “the economic
case for a new RLV is in doubt for the foreseeable future.”
Therefore, the Administration decided to shift $2.133 billion away from SLI over the
FY2003-2007 period—it will decline from $3.899 billion to $1.766 billion. The name SLI
will continue, but the focus of the program is dramatically changed. SLI now has two
components: building an Orbital Space Plane to take crews to and from the space station, and
developing “Next Generation Launch Technology,” with a decision in 2009 on what new
launch vehicle to build. The OSP will be launched by an EELV, not a new RLV. Of the
$2.133 billion taken from SLI for FY2003-2007, NASA plans to use $882 million for the
OSP program, and to shift $470 million to the space shuttle program (discussed earlier), $706
million to the space station program (see CRS Issue Brief IB93017), and $75 million to
Biological and Physical Research (for research that will benefit from the higher shuttle flight
rate proposed in the budget amendment). Despite being part of SLI, OSP is not a launch
vehicle.
It is a spacecraft to take crews to and from the space station, and will not be
discussed further in this report—see CRS Issue Brief IB93017 (Space Stations) instead.
The NGLT portion of the new SLI program is comprised of the remaining funding for
the 2nd generation RLV program plus funding allocated for “3rd generation” technologies (an
existing line item in the NASA budget, which includes hypersonics, an area in which DOD
is interested). The new launch vehicle developed through NGLT would launch cargo only.
For FY2003, NASA proposed $879 million for SLI, of which $296 million was for the OSP,
and $584 million was for NGLT. Congress generally approved the restructured program in
the FY2003 Omnibus Continuing Appropriations resolution (P.L. 108-7), but cut $40 million
from SLI, and said it neither endorsed nor denied the OSP funding, leaving that decision to
NASA. NASA’s FY2003 initial operating plan shows $368 million allocated to OSP, and
$448 million to NGLT. The FY2004 request for OSP is $550 million, and $514.5 million
for NGLT.
The FY2004 figures represent “full cost accounting,” which NASA is
implementing in its FY2004 budget. Thus FY2004 figures are not directly comparable to
FY2003 figures. (See CRS Report RS21430 for a discussion of full cost accounting.)
Private Sector RLV Development Efforts
In addition to the government-led programs, several entrepreneurial U.S. companies
have been attempting to develop RLVs through private financing. The companies have
encountered difficulties in obtaining financing from the financial markets, and some have
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been seeking government loan guarantees or tax credits. Some (e.g. Kistler Aerospace and
Universal Space Lines) were included in the SLI contract awards announced on May 17,
2001 (see above), so will receive direct government funding. Legislation related to loan
guarantees and tax incentives is discussed in the next section.
U.S. Commercial Launch Services Industry
Congressional Interest
Congress is debating issues involving the domestic launch services industry, many of
which were debated in previous Congresses. One issue is what the government should do
to stimulate development of new launch vehicles by the private sector, particularly in a
market that is stagnant or declining. Debate focuses on whether tax incentives or loan
guarantees should be created for companies attempting to develop lower cost launch
vehicles. Tax incentive advocates argue that loan guarantee programs allow the government
to pick winners and losers; loan guarantee advocates argue that tax incentives are insufficient
to promote necessary investment in capital intensive projects. Congress created (Title IX,
FY2003 DOD appropriations Act, P.L. 107-248 a loan guarantee program for companies
developing commercial, reusable, in-orbit space transportation system), but such systems are
not launch vehicles (they move satellites from one orbit to another) and are not discussed
further here. In the 108th Congress, H.R. 2358 would create tax incentives. H.R. 644 would
make spaceports eligible for tax exempt bonds. S. 1260 would extend until 2009 (from
2004) the period through which the government will indemnify commercial space launch
companies from certain third-party claims, and require the Secretary of Transportation to
study whether suborbital launch vehicles require separate regulation.
One difficulty facing entrepreneurial companies attempting to develop new launch
vehicles, and existing launch service providers, is dramatically changed market forecasts for
launch services. In the mid- to late-1990s when many of the entrepreneurial companies
emerged, a very large market was predicted for placing satellites into low Earth orbit (LEO),
particularly for satellite systems to provide mobile satellite telephony services. Many of the
entrepreneurial companies targeted the LEO market, but it has shrunk markedly in the
intervening years.
Three satellite mobile telephone companies (Iridium, ICO, and
Globalstar), and a company that offered data services using LEO satellites (Orbcomm), all
declared bankruptcy. Though Iridium and ICO were later brought out of bankruptcy, and
Orbcomm was purchased by another company at auction, many investors remain skeptical
about the prospects for such systems. Another factor is that technological advances permit
longer satellite lifetimes and enlarge capacity, reducing the need for new satellites in
established markets. Declining launch forecasts published by FAA (available at
[http://ast.faa.gov]) reflect the changing market conditions. The constricting market affects
existing launch service providers, both here and abroad, as well as companies planning to
introduce new vehicles.
Foreign Competition (Including Satellite Export Issues)
Europe, China, Russia, Ukraine, India, and Japan offer commercial launch services in
competition with U.S. companies. Most satellites are manufactured by U.S. companies or
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include U.S. components and hence require export licenses, giving the United States
considerable influence over how other countries participate in the commercial launch
services market. The United States negotiated bilateral trade agreements with China, Russia,
and Ukraine on “rules of the road” for participating in the market to ensure they did not offer
unfair competition because of their non-market economies. Launch quotas were set in each
of the agreements. However, President Clinton terminated the quotas for Russia and Ukraine
in 2000, and the agreement with China expired at the end of 2001.
Europe. The European Space Agency (ESA) developed the Ariane family of launch
vehicles. The first test launch of an Ariane was in 1979; operational launches began in 1982.
ESA continued to develop new variants of Ariane. Ariane 5 is the only version now in use.
ESA also is developing a smaller launch vehicle, Vega, whose first launch is expected in
2005. Operational launches are conducted by the French company Arianespace, which is
owned by the French space agency (CNES) and European aerospace companies and banks.
Arianespace conducts its launches from Kourou, French Guiana, on the northern coast of
South America. Arianespace also markets Russia’s Soyuz launch vehicle as part of a
French-Russian joint venture, Starsem, and may build a launch site for Soyuz at Kourou.
In 1985, a U.S. company (Transpace Carriers Inc.) filed an unfair trade practices
complaint against Arianespace, asserting that European governments were unfairly
subsidizing Ariane. The Office of the U.S. Trade Representative (USTR) investigated and
found that Europe was not behaving differently from the United States in pricing commercial
launch services (then offered primarily on the government-owned space shuttle). The
incident raised questions about what “rules of the road” to follow in pricing launch services.
In the fall of 1990, USTR and Europe began talks to establish such rules of the road and
assess how to respond to the entry of non-market economies into the launch services
business. The only formal negotiating session was held in February 1991.
Each side is concerned about how much the respective governments subsidize
commercial launch operations, but another controversial topic (not formally part of the talks)
was whether Arianespace should be able to bid for launches of U.S. government satellites,
which now must be launched on U.S. launch vehicles as a matter of U.S. policy.
Arianespace wants that restriction lifted. France and other European governments do not
have written policies requiring the use of Ariane for their government satellites. However,
the member governments of ESA originally agreed to pay a surcharge of as much as 15-20%
if they chose Ariane. The surcharge led some cost-conscious European governments to buy
launch services from other (notably U.S.) suppliers. In the fall of 1995, ESA’s member
governments reached agreement with Arianespace to reduce the surcharge to encourage use
of Ariane. (ESA itself gives preference to using Ariane, but is not legally constrained from
using other launch vehicles.) Arianespace is currently encountering significant financial
difficulties both because of the constrained market, and because of the failure of a new, more
capable variant of the Ariane 5 in 2002. In May 2003, the ESA Council of Ministers adopted
a European Guaranteed Access to Space (EGAS) program that includes providing 960
million euros for Arianespace to return the more capable version of the Ariane 5 to flight
status, and to acquire Ariane 5 launch vehicles through 2009, a period when the commercial
space launch business is expected to be slow.
China. The People’s Republic of China offers several versions of its Long March
launch vehicles commercially. China poses special issues not only because of its non-market
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economy, but because of technology transfer and political concerns. Launch services are
offered through China Great Wall Industry Corp. (CGWIC).
U.S.-China Bilateral Trade Agreements for Launch Services. In 1989, China
and the United States signed a 6-year bilateral trade agreement restricting the number of
Chinese commercial space launches to ensure China, with its nonmarket economy, did not
unfairly compete with U.S. companies. A new 7-year agreement was reached in 1995, and
amended in 1997. The agreement expired on December 31, 2001. While the agreements
were in force, they established quotas on how many commercial satellites China could launch
each year, and included pricing provisions to try to ensure that China did not unfairly
compete with U.S. commercial launch service providers because of its non-market economy.
U.S. Satellite Exports to China: 1988-1997. In September 1988, the U.S.
government agreed to grant three export licenses for satellites manufactured by Hughes to
be launched by CGWIC. Two were Optus communications satellites (formerly called
AUSSAT) built for Australia and the third was AsiaSat 1, owned by the Hong Kong-based
Asiasat Co. (of which China’s International Trust and Investment Corp. is a one-third
owner). The Reagan Administration granted the export licenses on the conditions that China
sign three international treaties related to liability for satellite launches and other subjects;
agree to price its launch services “on a par” with Western companies; and establish a
government-to-government level regime for protecting technology from possible misuse or
diversion. China met the conditions and the two countries signed a 6-year agreement in
January 1989. The now-defunct Coordinating Committee on Multilateral Export Controls
(COCOM) approved the licenses that March.
On June 5, 1989, after the Tiananmen Square uprising, President George H. W. Bush
suspended all military exports to China. At the time, exports of communications satellites
were governed by the State Department’s Munitions List. The satellites counted as military
exports and the licenses were suspended. Then Congress passed language in the FY1990
Commerce, Justice, State and Judiciary appropriations (P.L. 101-162) and the 1990-91
Foreign Relations Authorization Act (P.L. 101-246, Section 902) prohibiting the export of
U.S.-built satellites to China unless the President reported to Congress that (1) China had
achieved certain political and human rights reforms, or (2) it was in the national interest of
the United States. In December 1989, President Bush notified Congress that export of the
satellites was in the national interest and the licenses were reinstated. AsiaSat-1 became
China’s first commercial launch of a U.S.-built satellite in April 1990. Final export approval
for Optus 1 and 2 was granted in April 1991. They were launched in 1992.
A different issue arose in 1990.
China signed a contract to launch an Arabsat
Consortium satellite for $25 million, much less than what many consider “on a par” with
Western companies. The main competitor was Arianespace, which turned to both the French
and U.S. governments to prohibit export of the satellite (the prime contractor was French and
it included American components). No formal action was taken by the United States. In
1991, the Arabsat Consortium terminated the contract with the Chinese and signed an
agreement with Arianespace, so the case became moot, but the issue of what constituted “on
a par” remained. China argued that because its costs are so low, it could offer lower prices
and still adhere to international norms as to what costs are included in setting the price. Yet
another issue arose in 1991 — linkage of satellite export licenses with U.S. concern over
China’s ballistic missile proliferation policies. On April 30, 1991, the Bush Administration
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approved final export licenses for Optus 1 and 2, and for U.S. components of a Swedish
satellite called Freja (launched by China in October 1992). To emphasize its concern about
Chinese missile proliferation, however, the White House disapproved export of U.S.
components for a satellite China itself was building (Dong Fang Hong 3). Then, on June 16,
the White House announced that it would be “inappropriate for the United States to approve
any further export licenses for commercial satellite launches at this time.” On July 17, the
State Department identified CGWIC as one of two Chinese entities engaged in missile
technology proliferation activities that require the imposition of trade sanctions in accordance
with the Arms Export Control Act, including denial of license applications for export items
covered by the Missile Technology Control Regime (MTCR). Although the MTCR does not
cover satellites (only satellite launch vehicles, which are close cousins of ballistic missiles),
the identification of CGWIC as a cause of concern complicated China’s marketing plans.
China agreed to adhere to the MTCR, and the sanctions were lifted on February 21, 1992.
China’s fortunes improved. In May 1992, the International Telecommunications
Satellite Organization (Intelsat) agreed to launch at least one of its satellites on a Chinese
launch vehicle. On September 11, 1992, the State Department notified Congress that it was
waiving legislative restrictions on U.S. exports for six satellite projects with China: APSAT,
AsiaSat-2, Intelsat 7A, STARSAT, AfriStar, and Dong Fang Hong 3. The first five were
satellites China wanted to launch; the sixth was for satellite components for which export
was disapproved in April 1991. (The satellite was launched in 1994, but failed once it was
in orbit). Many observers saw the move as a conciliatory gesture in the wake of the U.S.
decision to sell F-16s to Taiwan.
On August 25, 1993, however, the U.S. government again imposed sanctions against
China for ballistic missile proliferation activities, and the State Department said that satellite
exports would not be permitted. The State Department announced October 4, 1994 it would
lift the sanctions after China pledged to abide by the MTCR. During this period, tensions
were acute between those viewing the sanctions as harmful to U.S. business interests and
those seeking to prevent sensitive technology from reaching China and/or to punish China
for MTCR infractions. The debate centered on whether the satellites should be governed by
export guidelines of the State Department (Munitions List) or the Commerce Department
(Commerce Control List). Some responsibility for export of commercial communications
satellites was transferred from the State Department to the Commerce Department in 1992;
in October 1996 primary responsibility was transferred to Commerce.
In January 1995, the launch of the Hughes-built APStar-2 satellite failed in-flight.
Falling debris killed 6 and injured 23 on the ground. On February 6, 1996, President Clinton
approved the export of four satellites to China for launch (2 COSAT satellites, Chinasat 7,
and Mabuhay) despite concerns about China exporting nuclear weapons-related equipment
to Pakistan. [The COSAT satellites, now called Chinastar, are built by Lockheed Martin and
the first was successfully launched on May 30, 1998. Chinasat 7 was built by Hughes, and
Mabuhay (now Agila 2) by Loral.] On February 14, 1996, a Long March 3B rocket carrying
the Intelsat 708 communications satellite built by Loral malfunctioned seconds after liftoff
impacting the ground and spreading debris and toxic fumes over the launch site and a nearby
village. The Chinese reported 6 dead and 57 injured, but other reports suggested a higher
figure. After this second Chinese launch failure involving fatalities, some customers,
including Intelsat, canceled contracts.
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In May 1997, USTR stated that it believed China violated the pricing provisions of the
bilateral agreement for the launching of Agila 2 (formerly called Mabuhay) for the
Philippines. Chinese officials disagreed. On September 10, 1997, the Washington Times
published a story that Chinese and Russian entities (including CGWIC) were selling missile
technology to Iran. China denied the allegations.
Satellite Exports to China: 1998-2000 (Including the “Loral/Hughes”
Issue, the Cox Committee Report, and Lockheed Martin). On February 18, 1998,
the President notified Congress that it was in the national interest to export Loral’s Chinasat
8 to China.
On April 4, 1998, the New York Times reported that a 1997 classified DOD
report alleged that Space Systems/Loral (part of Loral Space & Communications) and
Hughes Electronics’ satellite manufacturing division (then a subsidiary of General Motors;
now Boeing Satellite Systems) provided technical information to China that improved the
reliability of Chinese nuclear missiles. The assistance was provided in the wake of the
February 1996 Intelsat 708 launch failure (see above). The Intelsat satellite was built by
Loral, which participated in an inquiry into the accident at the request of insurance
companies seeking assurances that the Chinese had correctly diagnosed and solved the cause
of the failure. Loral formed a review committee that included representatives of other
satellite companies, including Hughes. According to Loral, the review committee did not
itself investigate the accident, but listened to Chinese officials explain their investigation and
then wrote a report. Loral conceded that a copy of the report was given to the Chinese before
it was provided to the State Department, in violation of Loral’s internal policies. Loral says
it notified the State Department when it learned that the Chinese had been given a copy.
According to media sources, DOD’s 1997 report says that the companies provided technical
information in violation of Loral’s export license. The companies insist they did nothing that
violated the license. The Justice Department investigated the allegations and expanded the
probe to include Hughes’ response to the 1995 APStar-2 failure. A grand jury reportedly was
empaneled in 1999. The government reacted a civil settlement with Loral on January 9, 2002
wherein Loral agreed to pay a $14 million civil fine, and spend $6 million on strengthening
its export compliance program. On December 26, 2002, the State Department charged
Hughes Electronics and Boeing Satellite Systems with 123 export violations. The companies
settled with the government on March 5, 2003, accepting a civil penalty of $20 million in
cash, and $12 million in credits for money already spent ($4 million), or that will be spent
($8 million), on export program enhancements.
Many hearings on the “Loral/Hughes” issue were held by various House and Senate
committees. In addition, the House established the Select Committee on U.S. National
Security and Military/Commercial Concerns with the People’s Republic of China chaired by
Representative Cox to investigate the issues. The Cox committee concluded that Hughes and
Loral deliberately transferred technical information and know-how to China during the
course of accident investigations. The committee investigated other cases of China acquiring
technical information from the United States and made 38 recommendations (see CRS
Report RL30231), including that the United States should increase its space launch capacity.
The FY2000 DOD authorization act (P.L. 106-65) included language implementing
many of the Cox committee recommendations. In brief, the Department of Justice must
notify appropriate congressional committees when it is investigating alleged export
violations in connection with commercial satellites or items on the munitions list if the
violation is likely to cause significant harm or damage to national security with exceptions
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to protect national security or ongoing criminal investigations; companies must be provided
with timely notice of the status of their export applications; enhanced participation by the
intelligence community in export decisions is required; adequate resources must be provided
for the offices at DOD and the State Department that approve export licenses; individuals
providing security at overseas launch sites do not have to be DOD employees, but must
report to a DOD launch monitor; and DOD must promulgate regulations concerning the
qualifications and training for DOD space launch monitors and take other actions regarding
those monitors and the records they maintain.
In February 1999, the Clinton Administration denied Hughes permission to export two
satellites for the Asia Pacific Mobile Telecommunication (APMT) system to China for
launch. Export permission for APMT had been granted in 1997 (the President notified
Congress on June 25, 1997), but Hughes changed the spacecraft design, necessitating new
export approval. That application was denied. On May 10, 2000, the White House made its
first certification to Congress under the new process detailed in the FY1999 DOD
authorization bill, approving the export to China of satellite fuels and separation systems for
the Iridium program. On August 18, 2000, the State Department stated it would continue the
suspension of a technical assistance agreement for Loral regarding launch of Chinasat 8
because the concerns that initiated the suspension in December 1998 had not been rectified.
In January 2001, Space News reported that the Chinasat 8 export application was returned
to Loral without action.
In April 2000, it became known that Lockheed Martin also was under investigation, in
this case for performing a technical assessment, without an export license, of a Chinese “kick
motor” used to place a satellite into its final orbit. On June 14, 2000, the State Department
announced it had reached agreement with Lockheed Martin involving $13 million in
penalties — $8 million that the company will pay over a 4-year period and $5 million that
was suspended and that the company can draw upon to fund a series of remedial compliance
measures specified in the consent agreement.
Satellite Exports to China: 2001-Present.
In July 2001, Senators Helms,
Thompson, Shelby, and Kyl wrote to President Bush reportedly asking the President not to
grant waivers for the export of satellites to China. As noted earlier, such waivers are
required under the FY1990-91 Foreign Relations Authorization Act (P.L. 101-246). At the
time, attention was focused on two European companies (Astrium and Alenia Spazio) that
had built satellites for two multinational satellite organizations (Intelsat and Eutelsat,
respectively) that were scheduled for launch by China.
The satellites contain U.S.
components. The companies reportedly had received State Department approval to ship the
satellites to China, but waivers still were needed. In August 2001, Intelsat canceled its
contract with Astrium for the APR-3 satellite, citing several factors including the delay in
obtaining U.S. export approval. Eutelsat switched the launch of its satellite to Europe’s
Ariane. Other satellites being manufactured by U.S. companies, however, such as Chinasat
8 and another being built by Loral (Apstar-5, for APT Satellite Co.), or containing U.S.
components may require waivers in the future (see CRS Report 98-485 for a list of pending
satellite exports). The FY2002 Commerce, Justice, State Appropriations Act (P.L. 107-77),
and the FY2003 Consolidated Appropriations Resolution (P.L. 108-7) require 15 days notice
to Congress before processing licenses for exporting satellites to China.
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Agency Jurisdiction Over Satellite Export Licenses. Between 1992 and 1996,
the George H. W. Bush and Clinton Administrations transferred responsibility for decisions
regarding export of commercial satellites from the State Department to the Commerce
Department. A January 1997 GAO report (GAO/NSIAD-97-24) examines that decision. In
response to concerns about the Loral/Hughes issue, Congress directed in the FY1999 DOD
authorization bill (P.L. 105-261) that export control responsibility be returned to the State
Department effective March 15, 1999. Which agency should control these exports remains
controversial.
Some of the controversy reflects concerns of the aerospace and space insurance
industries in the United States and abroad that the new regulations are being implemented
too broadly and vigorously and exports for launches on non-Chinese launch vehicles (such
as Europe’s Ariane) also are being affected. DOD officials and others have cited potential
harm to the U.S. defense industrial base if U.S. exports are stifled, too. One of the concerns
is the length of time needed to obtain a State Department approval. Section 309 of the
FY2000 State Department authorization act (incorporated into the FY2000 Consolidated
Appropriations Act, P.L. 106-113) directed the Secretary of State to establish an export
regime that includes expedited approval for exports to NATO allies and major non-NATO
allies. The State Department announced those new rules in May 2000; they took effect July
1. Also in May 2000, the State Department reportedly notified France that it would not apply
strict technology export control on satellites to be launched by Ariane (Space News, May 29,
2000, p. 1). The Security Assistance Act (P.L. 106-280) reduced from 30 days to15 days the
time Congress has to review decisions on exporting commercial communications satellites
to Russia, Ukraine, and Kazakhstan, making the time period the same as for NATO allies.
In May 2003, the House International Relations Committee (HIRC) recommended changing
that time period back to 30 days (H.R. 1950, H.Rept. 108-105, Pt. 1, sec. 1202), however.
The 107th Congress considered, but did not pass, legislation on the agency jurisdiction
question. The issue is being debated again in the 108th Congress. H.R. 1950 (the FY2004
State Department Authorization Act) as reported from HIRC (H.Rept. 108-105, Pt. 1) would
leave the decision on agency jurisdiction to the President if the export is to a NATO country
or major non-NATO ally, but exports to China would remain under State Department
jurisdiction. On June 26, the House Armed Services Committee rejected that language in its
markup of H.R. 1950 (H.Rept. 108-105, Pt. 3).
The Satellite Industry Association (SIA) released figures in May 2001 showing U.S.
satellite manufacturers losing market share to foreign companies. SIA and others attributed
that loss in part to the shift in jurisdiction to State, which they assert creates uncertainty for
satellite customers over when and whether export licenses will be approved. For 2001,
however, U.S. companies won 19 of the 22 commercial satellite manufacturing contracts
world-wide (Space News, Jan. 21, 2002). Only four new satellites were ordered world-wide
in 2002; U.S. companies won three of the four (Space News, January 13, 2003).
Russia. U.S. policy prohibited U.S.-built satellites from being exported to the Soviet
Union. Following the collapse of the Soviet Union, President George H. W. Bush said he
would not oppose Russia launching an International Maritime Satellite Organization
(Inmarsat) satellite and the United States would negotiate with Russia over “rules of the
road” for future commercial launches. Discussions in the fall of 1992 led to agreement in
principle in May 1993; the agreement was signed on September 2, 1993, after Russia agreed
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to abide by the terms of the MTCR (see below). On January 30, 1996, the countries amended
the agreement. Prior to Russia’s first launch of a U.S.-built satellite, a Technology Safeguard
Agreement among the United States, Russia, and Kazakstan (where the launch site is located)
was signed in January 1999. A similar agreement for launches from Russia’s Plesetsk,
Svobodny, and Kapustin Yar launch sites was signed in January 2000.
The 1993 agreement was signed only after Russia agreed to comply with the MTCR in
a case involving a Russian company, Glavkosmos, that planned to sell rocket engine
technology to the Indian Space Research Organization (ISRO). The United States declared
it violated the MTCR and imposed 2-year sanctions against Glavkosmos and ISRO. In June
1993, the United States threatened to impose sanctions against Russian companies that did
business with Glavkosmos. The two countries finally agreed that Russia would cease
transferring rocket engine technology (the engines themselves were not at issue) to India.
As noted, on September 10, 1997, the Washington Times published a story that Russian
and Chinese entities, including the Russian Space Agency, were selling missile technology
to Iran. In July 1998, Russia announced that it had identified nine entities that might be
engaged in illegal export activities. The United States imposed sanctions against seven of
them on July 28 and three more entities on January 12, 1999. The State Department said the
United States would not increase the quota on geostationary launches that Russia could
conduct under the 1996 agreement unless Russian entities ceased cooperating with Iran’s
ballistic missile program (see CRS Report 98-299). The launches are conducted primarily
by a U.S.-Russian joint venture composed of Lockheed Martin and Russia’s Khrunichev and
Energia, companies that were not among those sanctioned. Lockheed Martin was anxious
to have the quota raised to 20 and eventually eliminated. On July 13, 1999, the White House
agreed to raise the quota to 20. The agreement that set the quotas was due to expire on
December 31, 2000, but the White House eliminated the quota on December 1 (Wall Street
Journal,
December 1, 2000, p. A4). That action was taken even though Russia had informed
the United States that, as of December 1, 2000, it was withdrawing from a 1995 agreement
to stop selling conventional arms to Iran.
Ukraine. Ukraine offers commercial launch services, chiefly as part of the Sea Launch
joint venture among Boeing, Ukraine’s Yuzhnoye, Russia’s Energomash, and Norway’s
Kvaerner. The Sea Launch vehicle consists of a Ukranian two-stage Zenit rocket with a
Russian third stage. The vehicle is launched from a mobile ocean oil rig built by Kvaerner.
The rig is stationed in Long Beach, CA, where the launch vehicle and spacecraft are mated,
and then towed into the ocean where the launch takes place. The United States and Ukraine
signed a bilateral trade agreement in February 1996, that would have expired in 2001, but
President Clinton terminated it on June 6, 2000, in recognition of “Ukraine’s steadfast
commitment to international nonproliferation norms.” The first successful commercial
launch was in October 1999. In 1998, Boeing agreed to pay $10 million for not abiding by
export regulations in its dealings with Russia and Ukraine. Separately, Ukraine signed an
agreement with the U.S. company Globalstar to launch its satellites on Zenit from Baikonur.
The first attempt failed in September 1998, destroying 12 Globalstar satellites. Globalstar
switched to Russian Soyuz launch vehicles (marketed through Starsem) for subsequent
launches.
India. India conducted its first successful orbital space launch in 1980. Its ASLV and
PSLV launch vehicles can place relatively small satellites in low Earth orbit.
India
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conducted its first commercial launch (of German and South Korean satellites) using the
ASLV to low Earth orbit in May 1999. India is developing a larger vehicle (GSLV) capable
of reaching geostationary orbit. Two test launches have been completed. The GSLV uses
Russian cryogenic engines that were the subject of a dispute between the United States and
Russia (discussed earlier).
Japan.
Japan successfully conducted the first launch of its H-2 launch vehicle in
1994, the first all-Japanese rocket capable of putting satellites in geostationary orbit.
Previous rockets used for this purpose were based on U.S. technology and a 1969 U.S.-Japan
agreement prohibited Japan from launching for third parties without U.S. consent. With the
H-2, Japan was freed from that constraint. H-2 was not cost effective, and encountered
technical problems that led the Japanese government to abandon it in 1999. A new version,
H2A, successfully completed its first launch in August 2001. In 2002, the Japanese
government announced that it will privatize production of the H2A by 2005. Mitsubishi
Heavy Industries has taken over development and marketing of the H2A, and development
of an enhanced version is being considered. H-2 launches are conducted from Tanegashima,
on an island south of Tokyo. In June 1997, the Japanese government reached agreement with
the fishing industry to allow more launches from Tanegashima. Fishermen must evacuate
the area near the launch site during launches. The agreement extends from 90 to 190 the
number of days per year that launches may be conducted, and permits up to eight launches
a year instead of two.
LEGISLATION
H.R. 1588 (Hunter)
FY2004 National Defense Authorization Act. H.R. 1588 reported from House Armed
Services Committee May 16 (H.Rept. 108-106). S. 1050 reported from Senate Armed
Services Committee May 13 (S.Rept. 108-46). Passed House and Senate May 22. Senate
incorporated text of S. 1050 into H.R. 1588 on June 4.
H.R. 1950 (Hyde)
FY2004-2005 State Department Authorization Act. Reported from House International
Relations Committee May 16 (H.Rept. 108-105, Pt 1), with a supplemental report (H.Rept.
108-105, Pt. 2) filed June 12. Reported from House Armed Services Committee June 26
(H.Rept. 108-105, Pt. 3). Ordered reported from House Energy and Commerce Committee
July 9. Discharged from House Judiciary committee June 16.
H.R. 2658 (Lewis)/S. 1382 (Stevens)
FY2004 DOD appropriations act. H.R. 2658 reported from House Appropriations
Committee July 2 (H. Rept. 108-187); passed House July 8. S. 1382 reported from Senate
Appropriations Committee July 9 (S. Rept. 108-87).
S. 1260 (McCain)
Commercial Space Transportation Act of 2003. Introduced June 13, 2003; referred to
Senate Commerce Committee. Ordered reported without amendment June 19, 2003.
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