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Project 596

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Project 596
The mushroom cloud from the test
Information
CountryPeople's Republic of China
Test siteLop Nur Test Base
Period16 October 1964
Number of tests1
Test typeAtmospheric
Device typeFission
Max. yield22 kilotons of TNT (92 TJ)
Test chronology
← None

Project 596 (Miss Qiu, Chinese: 邱小姐; pinyin: Qiū Xiǎojiě, as the callsign;[1] Chic-1 by the US intelligence agencies[2]) was the first nuclear weapons test conducted by the People's Republic of China, detonated on 16 October 1964, at the Lop Nur test site. It was a uranium-235 implosion fission device made from weapons-grade uranium (U-235) enriched in a gaseous diffusion plant in Lanzhou.[3]

The atomic bomb was a part of China's "Two Bombs, One Satellite" program. It had a yield of 22 kilotons, comparable to the Soviet Union's first nuclear bomb RDS-1 in 1949 and the American Fat Man bomb dropped on Nagasaki, Japan in 1945.[4] With the test, China became the fifth nuclear power in the world and the first Asian nation to possess nuclear capability. This was the first of 45 successful nuclear tests China conducted between 1964 and 1996, all of which occurred at the Lop Nur test site.[5]

Development

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Motivation

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The Chinese nuclear weapons program was initiated on 15 January 1955. The decision made by the Chinese leadership was prompted by confrontations with the United States in the 1950s, including the Korean War, the 1955 Taiwan Straits Crisis, nuclear blackmail, and eventually the Vietnam War as well.[6] Mao Zedong explained his decision to a gathering of the Politburo of the Chinese Communist Party in 1956:

"Now we're already stronger than we were in the past, and in the future we'll be even stronger than now. Not only are we going to have more airplanes and artillery, but also the atomic bomb. In today's world, if we don't want to be bullied, we have to have this thing."[7]

Design and testing

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The mushroom cloud

In 1956, the Third Ministry of Machinery Building was established, and nuclear research was conducted at the Institute of Physics and Atomic Energy in Beijing. A gaseous diffusion uranium enrichment plant was constructed in Lanzhou. In 1957, China and the USSR signed an agreement on sharing defense technology that involved a prototype boosted fission weapon being supplied by Moscow to Beijing, technical data, and an exchange of hundreds of Russian and Chinese scientists.[8][9] A joint search for uranium in China was conducted between the two countries. A location near Lake Lop Nur in Xinjiang was selected to be the test site with its headquarters at Malan. Construction of the test site began on 1 April 1960, involving tens of thousands of laborers and prisoners under tough conditions.[5] It took four years to complete. Being the sole site for nuclear testing in China for years to come, the Lop Nur test site underwent extensive expansion and is by far the world's largest nuclear weapons test site, covering around 100,000 square kilometers.[10]

Sino-Soviet relations cooled during 1958 to 1959.[11][12] The Soviet Union was also engaged in test ban negotiations with the United States in 1959 in order to relax Soviet-American tensions, directly inhibiting the delivery of a prototype to China. Broader disagreements between Soviet and Chinese communist ideologies escalated mutual criticism. The Soviets responded by withdrawing the delivery of a prototype bomb[3] and over 1,400 Russian advisers and technicians involved in 200 scientific projects in China meant to foster cooperation between the two countries.[11]

Project 596 was named after the month of June 1959 in which it was initiated as an independent nuclear project, immediately after Nikita Khrushchev decided to stop helping the Chinese with their nuclear program on 20 June 1959, and Mao shifted toward an overall policy of self-reliance. The Second Ministry of Machine Building Industry, which oversaw China's nuclear industry, continued with the development of an atomic bomb.[8] The project was facilitated by the 199, China's first self-developed large-scale digital computer, which the China Academy of Sciences had also debuted in 1964.[13] By 14 January 1964, enough fissionable U-235 had been successfully enriched from the Lanzhou plant. On 16 October 1964, a uranium-235 fission implosion device, weighing 1550 kilograms was detonated on a 102-meter tower.[5]

Reception

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United States

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Satellite image of the Lop Nur test site taken by an American KH-4 Corona intelligence satellite on 20 October 1964, 4 days after the 596 test.

The United States government was aware of Soviet support of a Chinese nuclear program, but after the Soviets withdrew support in 1959, some U.S. officials underestimated the sole capability of China to develop a nuclear weapon, and were surprised when China's efforts proved successful. Namely, they thought there was an insufficient source for weapons-grade U-235 production and that the significance of a nuclear China was underplayed.[6] Still, President Kennedy proposed preventive action but it was decided against by the U.S. government as it was "likely to be viewed as provocative and dangerous and will play into the hands of efforts by [Beijing] to picture U.S. hostility to Communist China as the source of tensions and the principal threat to the peace in Asia."[14] By early 1964, from surveillance of activity around the Lop Nur site, it was clear that a test would be imminent.

The next step for China was to develop the mode of delivery of a nuclear payload. Just eight months after the 596 test, a deliverable nuclear bomb was successfully dropped from a bomber and detonated. A year later, medium range missiles were fitted with nuclear warheads. The Lop Nur test site was used to develop more sophisticated nuclear weapons such as the hydrogen bomb, multi-stage thermonuclear devices, and Intercontinental Ballistic Missiles (ICBM).[5] While China's nuclear arsenal was modest compared to that of the Soviet Union and the United States,[15] the presence of another nuclear power in Asia raised the issue of uncontrolled proliferation. The USA took measures to forestall the independent development of nuclear capabilities in more Asian nations, most immediately with India.[16] Top U.S. officials began open talks of non-proliferation with the Soviet Union soon after the 596 test to offset the possibility of a nuclear China propelling a larger and more unpredictable global arms race.[17]

Soviet Union

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Chinese nuclear capacity prompted the Soviet Union to sign the 1968 Treaty on the Non-Proliferation of Nuclear Weapons with the United States as well as China.[18]

Japan

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While the 1964 Summer Olympics which opened on 10 October was already underway in Tokyo, China conducted the atomic bomb test six days into the competition, prompting hysterical and immediate concerns of radiation fallout in Japan as it is relatively close to mainland China.[19]

China returns to the United Nations Security Council

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Zhou Enlai announcing the success of the test.

In response to the 596 test, the Chinese Nationalist leadership in Taiwan, including Chiang Kai-shek, called for a military response against Communist Chinese nuclear facilities and the formation of an anti-communist defense organization.[20] However, the United States would not risk strikes in China. Taiwan tried to launch its own nuclear weapons program, but failed, and the U.S. pressured Taiwan to dismantle its nuclear weapons program as it would strain US-China relations.[21] At the time of the test, the United States recognized Taiwan as the seat of the Chinese government, and Chinese membership in the United Nations, including a permanent seat in the United Nations Security Council, was held by Taiwan. With a nuclear weapon in the hands of Beijing, the international community would have to shift its recognition to the mainland, which it did a decade later.[17]

Since the 596 test China has asserted its nuclear doctrine of no-first-use, with officials characterizing the Chinese nuclear arsenal as a minimal deterrent to nuclear attack.[9]

Specifics

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See also

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References

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  1. ^ Fravel, Taylor (23 April 2019). Active Defense: China's Military Strategy Since 1949. Princeton University Press. p. 254. ISBN 9780691152134.
  2. ^ a b Communist China's Weapons Program for Strategic Attack, NIE 13-8-71 (Top Secret, declassified June 2004), Central Intelligence Agency, Washington, D.C., 1971.
  3. ^ a b "16 October 1964 – First Chinese nuclear test: CTBTO Preparatory Commission". www.ctbto.org. Retrieved 2017-06-01.
  4. ^ Bukharin, Oleg; Podvig, Pavel Leonardovich; Hippel, Frank Von (2004). Russian Strategic Nuclear Forces. MIT Press. p. 441. ISBN 9780262661812.
  5. ^ a b c d NORRIS, ROBERT S. (1996-03-01). "French and Chinese Nuclear Weapon Testing". Security Dialogue. 27 (1): 39–54. doi:10.1177/0967010696027001006. ISSN 0967-0106.
  6. ^ a b "China's Advance toward Nuclear Status in Early 1960s Held Surprises for U.S. Analysts, Generated Conflicting Opinions about the Potential Dangers". nsarchive.gwu.edu. October 16, 2014. Retrieved 2017-06-02.
  7. ^ Archive, Wilson Center Digital. "Wilson Center Digital Archive". digitalarchive.wilsoncenter.org. Retrieved 2017-06-02.
  8. ^ a b Gaulkin, Thomas (11 April 2024). "The short march to China's hydrogen bomb". Bulletin of the Atomic Scientists.
  9. ^ a b "China | Nuclear". Nuclear Threat Initiative. April 2015. Retrieved June 2, 2017.
  10. ^ "Lop Nor Nuclear Weapons Test Base | Facilities". Nuclear Threat Initiative. Retrieved 2017-06-02.
  11. ^ a b ""One Finger's Worth of Historical Events": New Russian and Chinese Evidence on the Sino-Soviet Alliance and Split, 1948–1959". Wilson Center. 2011-07-07. Retrieved 2017-06-02.
  12. ^ Lewis, John Wilson and Xue Litai. China Builds the Bomb. (Stanford: Stanford University Press, 1988), 63–66.
  13. ^ Mullaney, Thomas S. (2024). The Chinese Computer: a Global History of the Information Age. Cambridge, MA: The MIT Press. p. 101. ISBN 9780262047517.
  14. ^ Johnson, Robert (April 22, 1964). "The Bases for Direct Action Against Chinese Communist Nuclear Facilities" (PDF). The National Security Archive. Retrieved June 1, 2017.
  15. ^ Wheeler, Earle (3 December 1964). "A Military Appraisal of Chinese Acquisition of Nuclear Weapons" (PDF). The National Security Archive. Retrieved June 2, 2017.
  16. ^ Johnson, Robert (October 15, 1963). "Policy Planning Statement on A Chinese Communist Nuclear Detonation and Nuclear Capability" (PDF). The National Security Archive. Retrieved June 2, 2017.
  17. ^ a b Rosen, Armin. "Here's How The US Reacted To China's First Nuclear Test 50 Years Ago". Business Insider. Retrieved 2017-06-02.
  18. ^ "China joins A-bomb club – Oct 16, 1964". HISTORY.com. Retrieved 2017-06-02.
  19. ^ "China Explodes its First Atomic Bomb During the Tokyo Games". The Olympians. 28 May 2015. Retrieved 11 March 2021.
  20. ^ "U.S. Embassy Taiwan telegram 1980 to State Department" (PDF). The National Security Archive. October 23, 1964. Retrieved June 1, 2017.
  21. ^ Albright, David; Gay, Corey (1 January 1998). "Taiwan: Nuclear nightmare averted". Bulletin of the Atomic Scientists.
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