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RDS-1

Coordinates: 50°26′15″N 77°48′51″E / 50.43750°N 77.81417°E / 50.43750; 77.81417
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50°26′15″N 77°48′51″E / 50.43750°N 77.81417°E / 50.43750; 77.81417

RDS-1
The first Soviet atomic bomb, "RDS-1", was an implosion-type, like the U.S. "Fat Man" bomb, even in appearance; the front "eyes" are radar fuzes.
TypeNuclear weapon
Place of originSoviet Union
Specifications
Mass4.6 tons

Blast yield21 kt (88 TJ)

The RDS-1 (Russian: РДС-1), also known as Izdeliye 501 (device 501) and First Lightning (Russian: Пе́рвая мо́лния, romanized: Pyérvaya mólniya, IPA: [ˈpʲervəjə ˈmolnʲɪjə]),[1] was the nuclear bomb used in the Soviet Union's first nuclear weapon test. The United States assigned it the code-name Joe-1, in reference to Joseph Stalin. It was detonated on 29 August 1949 at 7:00 a.m.,[2] at the Semipalatinsk Test Site, Kazakh SSR,[3] after top-secret research and development as part of the Soviet atomic bomb project.[citation needed]

Etymology[edit]

There are several explanations for the Soviet code-name of RDS-1, usually an arbitrary designation: a backronym "Special Jet Engine" (Реактивный двигатель специальный, Reaktivnyi Dvigatel Spetsialnyi), or "Stalin's Jet Engine" (Реактивный двигатель Сталина, Reaktivnyi Dvigatel Stalina), or "Russia does it herself" (Россия делает сама, Rossiya Delayet Sama).[4] Later weapons were also designated RDS but with different model numbers.

Description[edit]

The weapon was designed at the Kurchatov Institute, then at the time officially known as "Laboratory № 2" but designated as the "office" or "base" in internal documents, starting in April 1946.[5] Plutonium for the bomb was produced at the industrial complex Chelyabinsk-40.[6]

The mushroom cloud from the first RDS-1 test (1949)

The RDS-1 explosive yield was 22 kilotons TNT equivalent, similar to the US Gadget and Fat Man bombs.[7] At Lavrentiy Beria's insistence, the RDS-1 bomb was designed as an implosion type weapon, similar to the Fat Man bomb dropped on Nagasaki, Japan; RDS-1 also had a solid plutonium core. The bomb designers had developed a more sophisticated design (tested later as RDS-2) but rejected it because of the known reliability of the Fat Man type design, the Soviets having received extensive intelligence on the design of the Fat Man bomb during World War II, which was discovered in the espionage case of Julius and Ethel Rosenberg[8] and during the Venona project.[9]

To test the effects of the new weapon, workers constructed houses made of wood and bricks, along with a bridge, and a simulated metro railway in the vicinity of the test site. Armoured hardware and approximately 50 aircraft were also brought to the testing grounds as well as over 1,500 animals to test the bomb's effects on life.[citation needed] In a sector of artillery about 100 guns and mortars were placed at distances ranging from 250 to 1,800 meters from ground zero. At distances 500 to 550 meters from ground zero artillery pieces were either totally destroyed or needed factory repair.[10] The resulting data showed the RDS explosion to be 50% more destructive than originally estimated by its engineers.[citation needed]

Mikhail Pervukhin served as the chairman of the commission in charge of the RDS-1 testing.[citation needed]

Five RDS-1 weapons were completed as a pilot series by March 1950 with a serial production of the weapon that began in December 1951.[11]

Detection by the West[edit]

This chart from September 1949 shows the United States Weather Bureau's prediction for where the Soviet Union first tested its atomic bomb in 1949. Each colored zone indicates the probability that the bomb was detonated within that area.

Some United States Air Force WB-29 weather reconnaissance aircraft were fitted with special filters to collect atmospheric radioactive debris. On 3 September 1949, the Air Force Office of Atomic Energy had a WB-29 fly from Misawa Air Base in Japan to Eielson Air Force Base in Alaska. The plane collected some debris during this flight. This data was then cross-checked with data from later flights, and it was determined that the Soviet Union had effectively tested a nuclear weapon.[12]

Response in the West[edit]

The test surprised the Western powers. American intelligence had estimated that the Soviets would not produce an atomic weapon until 1953, while the British did not expect it until 1954.[13] When the nuclear fission products from the test were detected by the U.S. Air Force, the United States began to follow the trail of the nuclear fallout debris.[14] President Harry S. Truman notified the world of the situation on 23 September 1949: "We have evidence that within recent weeks an atomic explosion occurred in the U.S.S.R."[15] Truman's statement likely in turn surprised the Soviets, who had hoped to keep the test a secret to avoid encouraging the Americans to increase their atomic programs, and did not know that the United States had built a test-detection system using the WB-29 Superfortress.[14] The announcement was a turning point in the Cold War, that had just begun. Once the Soviet Union was confirmed to be in possession of the atomic bomb, pressure mounted to develop the first hydrogen bomb.[15]

See also[edit]

References[edit]

  1. ^ Sublette, Carey (12 December 1997). "The Soviet Nuclear Weapons Program". nuclearweaponarchive.org. Retrieved 13 August 2016.
  2. ^ Kjelstrup, Christian (11 August 2013). "Dette er stedet der Sovjet testet atombombene sine". Dagens Næringsliv (in Norwegian). Archived from the original on 14 August 2013. Retrieved 13 August 2016.
  3. ^ Righter, Rosemary (31 July 2002). "The nuclear guinea pigs". www.kazakhembus.com. Archived from the original on 16 July 2007. Retrieved 13 August 2016.
  4. ^ Khalturin, Vitaly I.; Rautian, Tatyana G.; Richards, Paul G.; Leith, William S. (1 January 2005). "A Review of Nuclear Testing by the Soviet Union at Novaya Zemlya, 1955–1990" (PDF). Science & Global Security. 13 (1–2): 1–42. Bibcode:2005S&GS...13....1K. doi:10.1080/08929880590961862. ISSN 0892-9882. S2CID 122069080.
  5. ^ Goncharov, German A; Ryabev, Lev D (2001). "The development of the first Soviet atomic bomb". Physics-Uspekhi. 44 (1): 71–93. Bibcode:2001PhyU...44...71G. doi:10.1070/pu2001v044n01abeh000875. S2CID 250800226.
  6. ^ "Nuclear weapon production at Mayak". Closed Nuclear Cities Partnership. Archived from the original on 9 November 2013. Retrieved 13 August 2016. Scientists succeeded in producing weapon-grade plutonium in April 1949 which was used in the first Soviet atomic bomb
  7. ^ Bukharin, Oleg; Podvig, Pavel Leonardovich; Hippel, Frank Von (2004). Russian Strategic Nuclear Forces. MIT Press. p. 441. ISBN 978-0-262-66181-2.
  8. ^ "Rosenberg Trial Transcript". www.famous-trials.com/. Retrieved 20 October 2019.
  9. ^ "Venona Decrypts". www.nsa.gov. National Security Agency. Archived from the original on 18 September 2021. Retrieved 20 October 2019.
  10. ^ First Soviet atomic bomb. Film report (1949)
  11. ^ Bukharin, Oleg; Kadyshev, Timur; Miasnikov, Eugene; Sutyagin, Igor; Tarasenko, Maxim; Zhelezov, Boris (2001). Podvig, Pavel (ed.). Russian Strategic Nuclear Forces (hardcover). Cambridge, Massachusetts: The MIT Press. ISBN 978-02621-6202-9.
  12. ^ "U.S. Intelligence and the Detection of the First Soviet Nuclear Test, September 1949". nsarchive.gwu.edu. Retrieved 18 April 2017.
  13. ^ Aldrich, Richard J. (July 1998). "British Intelligence and the Anglo-American 'Special Relationship' during the Cold War". Review of International Studies. 24 (3): 331–351. doi:10.1017/S0260210598003313. JSTOR 20097530. S2CID 146376661.
  14. ^ Jump up to: a b U.S. Intelligence and the Detection of the First Soviet Nuclear Test, September 1949, William Burr, Washington, D.C., 22 September 2009
  15. ^ Jump up to: a b Geselbracht, Raymond H. (ed.). "The Truman Administration During 1949: A Chronology". Harry S. Truman Library. Archived from the original on 26 June 2010. Retrieved 13 August 2016.

External links[edit]