Draft:New space race

U.S. embargo amid setbacks

China's space program suffered major setbacks from 1992 to 1996, mainly through its faulty Long March 2E rocket.^[41] The 2E was later identified to have been designed with a defective payload fairing, which collapsed when faced with the rocket's excessive vibration.^[42] In the 2E's seven launches over a 6-year long period, it destroyed the Optus B2 and Apstar 2 satellites, while also damaging the AsiaSat 2.^[43] In addition to the 2E, China's Long March 3 and 3B also suffered severe setbacks. In 1996, a 3B carrying the Intelsat 708 satellite veered off course seconds after liftoff and crashed into a nearby village, destroying the satellite as well as killing 6 and injuring 57 people.^[22][44] A couple of months following the Xichang Disaster, China's Long March 3 also experienced a partial failure during the launch of Chinasat-7.^[45][46]

These failures sparked investigations into the matter, with the most notable being the Apstar 2 and Intelsat 708 investigations.^[43] However, great political controversy arose once United States companies began to participate in these investigations.^[47] In the Cox Report, the United States Congress accused Space Systems/Loral and Hughes Aircraft Company of transferring information that would improve the design of Chinese rockets and ballistic missiles.^[48] Following this, Congress "transferred export control responsibility for all commercial and non-commercial satellites" from the Commerce Department's Export Administration Regulations to the State Department's International Traffic in Arms Regulations in 1999.^[49][50] The shift turned to be very restrictive in terms of U.S. satellite components, with essentially this "embargo" having severe repercussions on the satellite launch industry.^[51] Many launches had to be shelved or postponed due to commercial payloads containing items of U.S. origin.^[52][53] For example, Chinasat-8, which was scheduled to launch in April 1999 aboard a Long March 3B, was placed in storage, sold to Singaporean company ProtoStar – and then finally launched aboard the European rocket Ariane 5 in 2008.^[54] This resulted in a massive loss in excess of $2.35 billion to foreign sales.^[51] Many European companies today are still afflicted with this problem, with many currently working to develop ways to replace U.S. satellite components.^[55]

China pushes as NASA recovers

Following major setbacks from 1992 to 1996, the faulty 2E was retired and therefore withdrawn from the market.^[32] This resulted in the Chinese making design changes to their rockets in order to improve the reliability of Long March rockets. Following the design changes, Long March rockets reliability increased drastically with their rockets experiencing no failures from August 1996 to August 2011.^[56] Moreover, in November 1999, Xiaoping and Zemin's visions for a crewed spacecraft and space station through the "863" and "921" projects finally came to fruition, with the first uncrewed launch of the Shenzhou spacecraft.^[57] The success of Shenzhou 1 was reassuring for the Chinese, and encouraged an influx in funding for the further development of the Shenzhou spacecraft, as well as project 921.^[58][59] In addition to the development of the Shenzhou spacecraft, the Long March "2F" was developed as well.^[60] The 2F was designed with the purpose of launching the Shenzhou into LEO as part of project 921's mission of creating a space station.^[61] Over the following years, the duo of the 2F and Shenzhou would undergo a series of tests and changes until the successful launch of Shenzhou 5 on October 15, 2003, which placed the first Chinese astronaut – Yang Liwei – into orbit.^[62] This feat also made China only the third country, behind the U.S. and Russia, to successfully launch an astronaut into space.^[63]

In contrast, however, NASA had experienced a repeat of the disaster that unfolded in 1986, when the Space Shuttle Columbia broke up as it returned to Earth – killing all seven astronauts.^[64] Only a few years prior, NASA embarked on an truly international endeavor to launch and expand the International Space Station, an architectural marvel which "showcased humanity's ingenuity" and had contributed to many scientific discoveries.^[65][66] Nevertheless, in the aftermath of the disaster, NASA would not fly its Space Shuttle again until July 2006 – with the successful launch of its STS-121 mission.^[67] Following this, NASA returned the Space Shuttle back to its original 7 missions-a-year schedule.^[64]

China's rise stirs tension, concern

As Bush stirred renewed space interest, the Chinese made progress with their 863 and 912 projects, in part due to the establishment of the Chinese Lunar Exploration Program in 2003.^[77] The establishment of the program led to key breakthroughs in Chinese lunar exploration and led to the development of the Chang'e program.^[78] Meanwhile, China's manned space program continued with second manned mission, Shenzhou 6, successfully launching in October 2005.^[79] By mid–2006, China had set up deep space network facilities all around the country to support its Chang'e 1 mission and had its next manned missions, Shenzhou 7 and Shenzhou 8 tentatively planned for 2008 and sometime between 2009 and 2011 respectively.^[80][81] In addition, Chinese plans of a space station as a part of Project 921 also came to light, with links to their Shenzhou 8 mission. The station's design was similar to that of the Soviet's Salyut space stations.^[82]

On January 11, 2007, China responded to Bush's space policies and demonstrated its growing power in space through an anti-satellite missile test.^[83] The test, which involved destroying an old Chinese weather satellite, caught U.S. intelligence authorities by surprise and was met with international criticism.^[84][85] The incident raised concerns amongst the United States, Japan, and India.^[86] In February 2008, the United States responded with their own anti-satellite test on an old spy craft, further stoking concerns of a U.S.-China arms race.^[87]

Constellation, Space Shuttle programs scrapped

In 2008, problems with NASA's Constellation program arose, with reports conducted by the Government Accountability Office stating that the program had "several critical issues" and that NASA's new Ares spacecraft may not work as intended and may never actually reach orbit.^[88] NASA, however, remained optimistic of the program, saying that they had mitigation practices in place for the Ares.^[89][90] Many politicians, however, remained skeptical of the program. As a result, funding slowed and NASA's budget was reduced to $17 billion, about 0.57% of the federal budget, and about a 25% decrease from 2000.^[91] In 2009, the Augustine Committee concluded that the program was massively underfunded and would need to have great budget increases for the program to even get beyond low Earth orbit.^[92][93] Following the investigation, the Obama administration scrapped the Constellation program on the grounds of it being "over-budget" and "behind schedule".^[94] Following the scrubbing of the program, Obama began to push for a revamp at NASA, all the while outlining his "vision" for the privatization of manned spaceflight and flights to Mars.^[95][96] Obama also announced what he called the "Asteroid Redirect Mission" as a "stepping stone" to Mars.^[97] In lieu of this, a new plan was established that pledged adequate funding for the development of a spacecraft capable of deep space exploration by 2025 and a Mars mission by 2030.^[98] As such, following some pushback from Congress, the Ares V – developed under Constellation – was redirected to support Obama's new space policy.^[99][100]

In September 2011, NASA unveiled its new rocket for deep space missions.^[101] Called the "Space Launch System", or "SLS", the rocket would utilize technology from the Space Shuttle and the former Constellation program's Ares V.^[102][103] Projected to cost roughly $18 billion,^[104][105] the rocket was touted to serve as a replacement for the Space Shuttle^[106] (as was the former Ares V^[107]), which flew its final flight, the STS-135 mission, in July 2011.^[108] By late 2012 and early 2013, despite being mired with various problems within its development, SLS was still on track to hit its original target launch date of sometime in 2017.^[109][110] By 2014, NASA had fully committed to SLS - with nearly $7 billion in spending costs,^[111] and SLS passing numerous "critical design reviews".^[112][113] Also by this time, NASA had also successfully launched its Orion spacecraft aboard a Delta IV Heavy as part of a greater flight test for SLS.^[114] However, NASA's timeline had shifted back from an original 2017 launch date to now a November 2018 launch date, with NASA citing that they wanted to factor in previously "unforeseen engineering challenges".^[111] The delay sparked concerns in Congress about other potential delays and cost overruns.^[115]

The unveiling of SLS came just a few months after the retiring of the Space Shuttle program on July 21, 2011.^[116][117] Following its retirement, concerns and an aura of uncertainty were raised regarding NASA's future and about how NASA would be able to get astronauts into orbit and to the ISS.^[118] The unveiling also came a few months after the passing of the Wolf Amendment in Congress, which essentially had placed a "speed bump" and hindered possible cooperation between NASA and China in space.^[119] While intended to "slow" China down in the field of spaceflight, the bill was met with criticism from scientists and engineers, who said that the amendment proves "contrary to its intents and increases the risks of war in space" and isn't helpful to either the U.S. or China.^[120][121] It came after a series of cyber attacks linked to China, as well as the fast growth of China's space program.^[122]

China aims for the Moon as NASA faces delays

As NASA worked to restore American access to space via the commercialization of human spaceflight and the development of SLS,^{[123][124][125]} China pursued its lunar Chang'e program, successfully landing a rover on the Moon's surface in December 2013.^[126] By early 2015, China had fulfilled various missions and objectives within Earth orbit, including the deployment and docking of Tiangong-1, China's first manned spacelab,^[127] and the crewed launch of Shenzhou 9, making Liu Yang the first Chinese woman in space.^[128] Ambitions ran high; heading into 2017, China laid out its desire to have 'taikonauts', accompanied with a functioning base, on the Moon by 2040.^[129] This came amidst a newly-instigated race to mine precious resources from the Moon, including water, helium-3, and metal.^[130][131]

At the same time, NASA's ability to stick to a November 2018 launch timeline for SLS and Orion was called into question.^[132] A July 2015 report by the Government Accountability Office (GAO) said that SLS was running short on schedule margin as it worked to have it ready for flight.^[133] This margin shrank further in the following years, as NASA in September 2015 estimated a tentative April 2023 crewed launch date – around two years behind previous estimates.^[134][132] NASA also faced financial concerns, potentially affecting its ability to build SLS payloads.^[135] Nevertheless, NASA was still on track for a November 2018 launch^[136] until an appearance of a tornado at NASA's Michoud Assembly Facility upended these plans; an estimated half of NASA's facilities were damaged.^[137][138] Despite efforts by NASA to repair its facilities and infrastructure as quickly as possible, reports released by the NASA Office of Inspector General and the GAO found that the program was effectively out of cost and schedule margin, forcing the delay of the first flight to sometime in 2019 or 2020.^[139][140]

With delays hindering NASA’s efforts to launch SLS, China successfully replaced the aging Tiangong-1 with their newer Tiangong-2 and managed to grow their lunar and manned space programs at a scale that surprised researchers and scientists from across the globe.^{[141][142][143]} Reports also indicated that China was now developing and testing directed-energy and jamming technologies,^[144] raising concerns that China would grow to rival and surpass the U.S. in space.^[145][144]

U.S., China look to the private sector

Looking to lower costs and foster innovation and progress, NASA sought to open up space to the private sector^[165] by implementing contracts that were awarded to fund companies like Boeing, SpaceX and Blue Origin.^[166] Historically, private companies were contractors that played secondary roles in NASA missions.^[167] But as NASA faced growing budget constraints heading into the 21st century, the agency gave companies more responsibility and freedom by forming partnerships with them and shelling out subsidized government contracts.^[168][5] These partnerships were important following the retiring of the Space Shuttle, as NASA would have no viable way to transport cargo or astronauts to the ISS by themselves.^[169] In anticipation of this scenario, NASA established two programs: the Commercial Resupply Services program (CRS) in 2008 and the Commercial Crew Program (CCP) in 2011.^[170][171] These programs funded private companies in the development of their own spacecraft to transport cargo and crew to the ISS. As companies developed and worked to get their spacecraft to orbit, launch costs gradually began to fall thanks to private sector competition and the use of reusable launch vehicles.^[172][173] As a result, NASA could transport cargo and crew to the ISS at relatively low costs.^[174][175] This public-private partnership model was then extended by NASA to its Artemis program, wherein it established the Commercial Lunar Payload Services (CLPS) program and contracted companies to develop their own lunar landers.^[176]

In an effort to develop and foster its own private and military space industry, China began funding its domestic private space sector via state subsidies.^[177][178] With over 100 companies created and billions of dollars in funding,^[179][180] China worked to lower its launch costs by developing and launching its own reusable launch vehicles.^[181][182] To this end, China began outsourcing manufacturing and launching capabilities to companies via government contracts.^[183]

COVID-19 pandemic

As a result of the COVID-19 pandemic, NASA was forced to cancel or postpone many science campaigns and missions, as well as halt much of the production and testing that was being done for SLS and Orion.^[184][185] NASA had also implemented strict agency-wide telework restrictions,^[186] from which only projects deemed "mission critical" (e.g. the Mars 2020 mission^[187]) were excepted from.^[188] Many of these projects, such as the Perseverance rover, needed to adhere to a strict and specific timeline – hence its "mission critical" status.^[189] The pandemic affected private NASA-contracted U.S. companies, too, leading them to implement work restrictions while continuing to develop their crewed spacecraft under the CCP.^[190] SpaceX launched its first crewed flight aboard its Crew Dragon spacecraft on May 30, 2020, reestablishing independent U.S. access to space and ending years of reliance on Russia's Soyuz spacecraft.^[191][192] The launch also demonstrated the increased accessibility of space, a reflection of the shift towards a commercial launch environment.^[193][194]

Yet, while NASA was forced to slow its program, China maintained relative momentum with its space program. China successfully launched the Chang'e 5 lunar sample return mission in 2020, the first in decades, successfully landed on Mars, and launched more missions to orbit (55) than the U.S. (51) in 2021.^[195] China's ability to press on intensified the competition between the two,^[179] alarming U.S. officials who warned of American satellites' vulnerability to Chinese anti-satellite missions.^[196]

American missteps pave way for China