Submarine-launched ballistic missile




Ballistic missile capable of being launched from submerged submarines





A UGM-96 Trident I clears the water after launch from a US Navy submarine in 1984


A submarine-launched ballistic missile (SLBM) is a ballistic missile capable of being launched from submarines. Modern variants usually deliver multiple independently targetable reentry vehicles (MIRVs) each of which carries a nuclear warhead and allows a single launched missile to strike several targets. Submarine-launched ballistic missiles operate in a different way from submarine-launched cruise missiles.


Modern submarine-launched ballistic missiles are closely related to intercontinental ballistic missiles (range of over 5,500 kilometres (3,000 nmi)), and in many cases SLBMs and ICBMs may be part of the same family of weapons.




Contents






  • 1 History


    • 1.1 Origins


    • 1.2 Deployment and further development


    • 1.3 Poseidon and Trident I


    • 1.4 Trident and Typhoon submarines


    • 1.5 Post-Cold War




  • 2 Types


  • 3 Non-military use


  • 4 See also


  • 5 References


  • 6 External links





History



Origins


The first practical design of a submarine-based launch platform was developed by the Germans near the end of World War II involving a launch tube which contained a V-2 ballistic missile variant and was towed behind a submarine, known by the code-name Prüfstand XII. The war ended before it could be tested, but the engineers who had worked on it went on to work for the United States and for the Soviet Union on their SLBM programs. These and other early SLBM systems required vessels to be surfaced when they fired missiles, but launch systems eventually were adapted to allow underwater launching in the 1950-1960s. A converted Project 611 (Zulu-IV class) submarine launched the world's first SLBM, an R-11FM (SS-N-1 Scud-A, naval variant of the SS-1 Scud) on 16 September 1955.[1] Five additional Project V611 and AV611 (Zulu-V class) Submarines became the world's first operational ballistic missile submarines (SSBs) with two R-11FM missiles each, entering service in 1956–57.[2]


The United States Navy initially worked on a sea-based variant of the US Army Jupiter intermediate-range ballistic missile, projecting four of the large, liquid-fueled missiles per submarine.[3] Rear Admiral W. F. "Red" Raborn headed a Special Project Office to develop Jupiter for the Navy, beginning in late 1955.[3][4] However, at the Project Nobska submarine warfare conference in 1956, physicist Edward Teller stated that a physically small one-megaton warhead could be produced for the relatively small, solid-fueled Polaris missile,[5] and this prompted the Navy to leave the Jupiter program in December of that year. Soon Chief of Naval Operations Admiral Arleigh Burke concentrated all Navy strategic research on Polaris, still under Admiral Raborn's Special Project Office.[4] All US SLBMs have been solid-fueled while all Soviet and Russian SLBMs have been liquid-fueled except for the Russian RSM-56 Bulava, which entered service in 2014.





Polaris A-1


The world's first operational nuclear-powered ballistic missile submarine (SSBN) was USS George Washington (SSBN-598) with 16 Polaris A-1 missiles, which entered service in December 1959 and conducted the first SSBN deterrent patrol November 1960 – January 1961.[6]George Washington also conducted the first successful submerged SLBM launch with a Polaris A-1 on 20 July 1960.[7] Forty days later, the Soviet Union made its first successful underwater launch of a submarine ballistic missile in the White Sea, on 10 September 1960 from the same converted Project 611 (NATO reporting name Zulu-IV class) submarine that first launched the R-11FM.[8] The Soviets were only a year behind the US with their first SSBN, the ill-fated K-19 of Project 658 (Hotel class), commissioned in November 1960. However, the Hotel class carried only three R-13 missiles (NATO reporting name SS-N-4) each and had to surface and raise the missile to launch.[9] Submerged launch was not an operational capability for the Soviets until 1963, when the R-21 missile (SS-N-5) was first backfitted to Project 658 (Hotel class) and Project 629 (Golf class) submarines.[10] The Soviet Union was able to beat the U.S. in launching and testing the first SLBM with a live nuclear warhead, an R-13 that detonated in the Novaya Zemlya Test Range in the Arctic Ocean, doing so on 20 October 1961,[11] just ten days before the gigantic 50 Mt Tsar Bomba's detonation in the same general area. The United States eventually conducted a similar test in the Pacific Ocean on 6 May 1962, with a Polaris A-2 launched from USS Ethan Allen (SSBN-608) as part of the nuclear test series Operation Dominic. The first Soviet SSBN with 16 missiles was the Project 667A (Yankee class), which first entered service in 1967 with 32 boats completed by 1974.[12][13] By the time the first Yankee was commissioned the US had built 41 SSBNs, nicknamed the "41 for Freedom".[14][15]




French M45 SLBM and M51 SLBM in cross-section of a submarine.



Deployment and further development


The short range of the early SLBMs dictated basing and deployment locations. By the late 1960s the Polaris A-3 was deployed on all US SSBNs with a range of 4,600 kilometres (2,500 nmi), a great improvement on the 1,900 kilometres (1,000 nmi) range of Polaris A-1. The A-3 also had three warheads that landed in a pattern around a single target.[16][17] The Yankee class was initially equipped with the R-27 Zyb missile (SS-N-6) with a range of 2,400 kilometres (1,300 nmi). The US was much more fortunate in its basing arrangements than the Soviets. Thanks to NATO and the US possession of Guam, US SSBNs were permanently forward deployed at Advanced Refit Sites in Holy Loch, Scotland, Rota, Spain, and Guam by the middle 1960s, resulting in short transit times to patrol areas near the Soviet Union. The SSBN facilities at the Advanced Refit Sites were austere, with only a submarine tender and floating dry dock. Converted merchant ships designated T-AKs (Military Sealift Command cargo ships) were provided to ferry missiles and supplies to the sites. With two rotating crews per boat, about one-third of the total US force could be in a patrol area at any time. The Soviet bases, in the Murmansk area for the Atlantic and the Petropavlovsk-Kamchatsky area for the Pacific, required their SSBNs to make a long transit (through NATO-monitored waters in the Atlantic) to their mid-ocean patrol areas to hold the continental United States (CONUS) at risk. This resulted in only a small percentage of the Soviet force occupying patrol areas at any time, and was a great motivation for longer-range Soviet SLBMs, which would allow them to patrol close to their bases, in areas sometimes referred to as "deep bastions". These missiles were the R-29 Vysota series (SS-N-8, SS-N-18, SS-N-23), equipped on Projects 667B, 667BD, 667BDR, and 667BDRM (Delta-I through Delta-IV classes).[10] The SS-N-8, with a range of 7,700 kilometres (4,200 nmi), entered service on the first Delta-I boat in 1972, before the Yankee class was even completed. A total of 43 Delta-class boats of all types entered service 1972–90, with the SS-N-18 on the Delta III class and the R-29RM Shtil (SS-N-23) on the Delta IV class.[18][19][20][21] The new missiles had increased range and eventually Multiple Independently-targeted Re-entry Vehicles (MIRV), multiple warheads that could each hit a different target.[10]



Poseidon and Trident I


Although the US did not commission any new SSBNs from 1967 through 1981, it did introduce two new SLBMs. Thirty-one of the 41 original US SSBNs were built with larger diameter launch tubes with future missiles in mind. In the early 1970s the Poseidon (C-3) missile entered service, and those 31 SSBNs were backfitted with it.[22] Poseidon offered a massive MIRV capability of up to 14 warheads per missile.[15] Like the Soviets, the US also desired a longer-range missile that would allow SSBNs to be based in CONUS. In the late 1970s the Trident I (C-4) missile with a range of 7,400 kilometres (4,000 nmi) and eight MIRV warheads was backfitted to 12 of the Poseidon-equipped submarines.[23][24][25] The SSBN facilities (primarily a submarine tender and floating dry dock) of the base at Rota, Spain were disestablished and the Naval Submarine Base King's Bay in Georgia was built for the Trident I-equipped force.[citation needed]



Trident and Typhoon submarines




A Trident II missile just after launch.


Both the United States and the Soviet Union commissioned larger SSBNs designed for new missiles in 1981. The American large SSBN was the Ohio class, also called the "Trident submarine", with the largest SSBN armament ever of 24 missiles, initially Trident I but built with much larger tubes for the Trident II (D-5) missile, which entered service in 1990.[26][27] The entire class was converted to use Trident II by the early 2000s. Trident II offered a range of over 8,000 kilometres (4,300 nmi) with eight larger MIRV warheads than Trident I. When the USS Ohio (SSBN-726) commenced sea trials in 1980, two of the first ten US SSBNs had their missiles removed to comply with SALT treaty requirements; the remaining eight were converted to attack submarines (SSN) by the end of 1982. These were all in the Pacific, and the Guam SSBN base was disestablished; the first several Ohio-class boats used new Trident facilities at Naval Submarine Base Bangor, Washington. Eighteen Ohio-class boats were commissioned by 1997,[28] four of which were converted as cruise missile submarines (SSGN) in the 2000s to comply with START I treaty requirements. The Soviet large SSBN was the Project 941 Akula, famous as the Typhoon-class (and not to be confused with the Project 971 Shchuka attack submarine, called "Akula" by NATO). The Typhoons were the largest submarines ever built at 48,000 tons submerged. They were armed with 20 of the new R-39 Rif (SS-N-20) missiles with a range of 8,300 kilometres (4,500 nmi) and 10 MIRV warheads. Six Typhoons were commissioned 1981–89.[29]



Post-Cold War


New SSBN construction terminated for over 10 years in Russia and slowed in the US with the collapse of the Soviet Union and the end of the Cold War in 1991. The US rapidly decommissioned its remaining 31 older SSBNs, with a few converted to other roles, and the base at Holy Loch was disestablished. Most of the former Soviet SSBN force was gradually scrapped under the provisions of the Nunn–Lugar Cooperative Threat Reduction agreement through 2012.[30] By that time the Russian SSBN force stood at six Delta-IVs, three Delta-IIIs, and a lone Typhoon used as a testbed for new missiles (the R-39s unique to the Typhoons were reportedly scrapped in 2012). Upgraded missiles such as the R-29RMU Sineva (SS-N-23 Sineva) were developed for the Deltas. In 2013 the Russians commissioned the first Borei-class submarine, also called the Dolgorukiy class after the lead vessel. By 2015 two others had entered service. This class is intended to replace the aging Deltas, and carries 16 solid-fuel RSM-56 Bulava missiles, with a reported range of 10,000 kilometres (5,400 nmi) and six MIRV warheads. The US is designing a replacement for the Ohio class; however, as of early 2015 none have been laid down.[citation needed]


Ballistic missile submarines have been of great strategic importance for the United States, Russia, and other nuclear powers since they entered service in the Cold War, as they can hide from reconnaissance satellites and fire their nuclear weapons with virtual impunity. This makes them immune to a first strike directed against nuclear forces, allowing each side to maintain the capability to launch a devastating retaliatory strike, even if all land-based missiles have been destroyed. This relieves each side of the necessity to adopt a launch on warning posture, with its attendant risk of accidental nuclear war. Additionally, the deployment of highly accurate missiles on ultra-quiet submarines allows an attacker to sneak up close to the enemy coast and launch a missile on a depressed trajectory (a non-optimal ballistic trajectory which trades off reduced throw-weight for a faster and lower path, effectively reducing the time between launch and impact), thus opening the possibility of a decapitation strike.[citation needed]



Types




Montage of the launch of a Trident I C-4 SLBM and the paths of its reentry vehicles




Selected Russian and Chinese SLBMs. L to R: R-29 Vysota (SS-N-8), R-29R (SS-N-18), R-39 (SS-N-20), R-29RM (SS-N-23), JL-1, JL-2


Specific types of SLBMs (current, past and under development) include:



































































































































































































































































Type NATO Name Minimum Range (km) Maximum Range (km) Country Status
UGM-27 Polaris (A-1 through A-3) 4,600
United States
Decommissioned
UGM-73 Poseidon (C-3) 4,600
United States
Decommissioned
UGM-96 Trident I (C-4) 7,400
United States
Decommissioned
UGM-133 Trident II (D5LE) 12,000
United States
Operational
R-13 SS-N-4 600
Soviet Union/Russia
Decommissioned
R-21 SS-N-5 1,650
Soviet Union/Russia
Decommissioned
R-27 Zyb SS-N-6 2,400 3,000
Soviet Union/Russia
Decommissioned
RSM-40[31]R-29 "Vysota"
SS-N-8 "Sawfly" 7,700 9,000
Soviet Union/Russia
Decommissioned
R-27K SS-NX-13 3,600
Soviet Union/Russia
Never operational[32]
RSM-45 R-31
SS-N-17 "Snipe"[31]
4,500
Soviet Union/Russia
Decommissioned
RSM-50[31]R-29R "Vysota"
SS-N-18 "Stingray" 6,500
Soviet Union/Russia
Decommissioned
RSM-52[31]R-39 "Rif"
SS-N-20 "Sturgeon" 8,300
Soviet Union/Russia
Decommissioned
RSM-54 R-29RM "Shtil" SS-N-23 "Skiff" 8,300
Soviet Union/Russia
Decommissioned (Under rebuild to R-29RMU "Sineva")[33]
RSM-54 R-29RMU "Sineva" SS-N-23 "Skiff" 8,300
Soviet Union/Russia
Operational
RSM-54 R-29RMU2 "Layner" 8,300 12,000
Soviet Union/Russia
Operational
RSM-56 R-30 "Bulava" SS-NX-32[34]
8,000 8,300
Soviet Union/Russia
Operational

UGM-27 Polaris (A-3) and Chevaline
4,600
United Kingdom
Decommissioned
UGM-133 Trident II (D5) 12,000
United Kingdom
Operational
M1 3,000
France
Decommissioned
M2 3,200
France
Decommissioned
M20 3,000
France
Decommissioned
M4 5,000
France
Decommissioned
M45 6,000
France
Operational
M51 8,000 10,000
France
Operational

JL-1[35]
2,500
China
Decommissioned (never fully operational)
JL-2 7,400 8,000
China
Operational
JL-3 11,000
China
Being tested [36]
K-15 Sagarika 750 1,900
India
Operational
K-4 3,500
India
Test fired from Arihant class submarine.[37]
K-5 6,000
India
Under development[38][39]

Pukkuksong-1/KN-11
500 2,500
North Korea
Under development[40]


Non-military use


Some former Russian SLBMs have been converted into Volna and Shtil' launch vehicles to launch satellites – either from a submarine or from a launch site on land.



See also




  • ICBM

  • Comparison of ICBMs

  • List of ICBMs

  • Heavy ICBM

  • Nuclear warfare

  • Vertical launching system

  • Ballistic missile submarine

  • intermediate-range ballistic missiles



References





  1. ^ Wade, Mark. "R-11". Encyclopedia Astronautica. Retrieved 23 April 2011..mw-parser-output cite.citation{font-style:inherit}.mw-parser-output q{quotes:"""""""'""'"}.mw-parser-output code.cs1-code{color:inherit;background:inherit;border:inherit;padding:inherit}.mw-parser-output .cs1-lock-free a{background:url("//upload.wikimedia.org/wikipedia/commons/thumb/6/65/Lock-green.svg/9px-Lock-green.svg.png")no-repeat;background-position:right .1em center}.mw-parser-output .cs1-lock-limited a,.mw-parser-output .cs1-lock-registration a{background:url("//upload.wikimedia.org/wikipedia/commons/thumb/d/d6/Lock-gray-alt-2.svg/9px-Lock-gray-alt-2.svg.png")no-repeat;background-position:right .1em center}.mw-parser-output .cs1-lock-subscription a{background:url("//upload.wikimedia.org/wikipedia/commons/thumb/a/aa/Lock-red-alt-2.svg/9px-Lock-red-alt-2.svg.png")no-repeat;background-position:right .1em center}.mw-parser-output .cs1-subscription,.mw-parser-output .cs1-registration{color:#555}.mw-parser-output .cs1-subscription span,.mw-parser-output .cs1-registration span{border-bottom:1px dotted;cursor:help}.mw-parser-output .cs1-hidden-error{display:none;font-size:100%}.mw-parser-output .cs1-visible-error{font-size:100%}.mw-parser-output .cs1-subscription,.mw-parser-output .cs1-registration,.mw-parser-output .cs1-format{font-size:95%}.mw-parser-output .cs1-kern-left,.mw-parser-output .cs1-kern-wl-left{padding-left:0.2em}.mw-parser-output .cs1-kern-right,.mw-parser-output .cs1-kern-wl-right{padding-right:0.2em}


  2. ^ "Large submarines - Project 611". russianships.info.


  3. ^ ab Friedman, pp. 192–195


  4. ^ ab "History of the Jupiter Missile System". heroicrelics.org.


  5. ^ Teller, Edward (2001). Memoirs: A Twentieth Century Journey in Science and Politics. Cambridge, Massachusetts: Perseus Publishing. pp. 420–421. ISBN 0-7382-0532-X.


  6. ^ Friedman, p. 196


  7. ^ "Missiles 1963", Flight International: 752, 7 November 1963


  8. ^ Dygalo, V.A. "Start razreshaju (in Russian)". Nauka i Zhizn'. Retrieved 23 April 2011.


  9. ^ "Nuclear-powered ballistic missile submarines - Project 658". russianships.info.


  10. ^ abc Gardiner and Chumbley, pp. 355–357


  11. ^ Polmar, Norman; White, Michael (2010). Project Azorian: The CIA and the Raising of the K-129. Naval Institute Press. p. 21. ISBN 978-1-59114-690-2.


  12. ^ Gardiner and Chumbley, p. 403


  13. ^ "Nuclear-powered ballistic missile submarines - Project 667A". russianships.info.


  14. ^ Gardiner and Chumbley, pp. 610–613


  15. ^ ab Polmar American Submarine, p. 133


  16. ^ Friedman, pp. 199–200


  17. ^ Polmar American Submarine, pp. 131–133


  18. ^ "Nuclear-powered ballistic missile submarines - Project 667B". russianships.info.


  19. ^ "Nuclear-powered ballistic missile submarines - Project 667BD". russianships.info.


  20. ^ "Nuclear-powered ballistic missile submarines - Project 667BDR". russianships.info.


  21. ^ "Nuclear-powered ballistic missile submarines - Project 667BDRM". russianships.info.


  22. ^ Friedman, p. 201


  23. ^ Gardiner and Chumbley, pp. 553–554


  24. ^ Friedman, p. 206


  25. ^ Polmar American Submarine, pp. 133–135


  26. ^ Friedman, pp. 206–207


  27. ^ Gardiner and Chumbley, p. 554


  28. ^ Gardiner and Chumbley, p. 613


  29. ^ "Nuclear-powered ballistic missile submarines - Project 941". russianships.info.


  30. ^ "DTRA verification page".


  31. ^ abcd Korabli VMF SSSR, Vol. 1, Part 1, Yu. Apalkov, Sankt Peterburg, 2003,
    ISBN 5-8172-0069-4



  32. ^ SS-NX-13 SLBM System (U), Defense Intelligence Agency, D5T-1020S-4l7-75, 1 October 1975


  33. ^ "SSBN K-51 Verkhoturye arrived to Zvezdochka for repairs today". Rusnavy.com. 23 August 2010. Retrieved 8 October 2010.


  34. ^ NASIC-1031-0985-09


  35. ^ "JL-1 [CSS-N-3] – China Nuclear Forces". Fas.org. Retrieved 10 February 2012.


  36. ^ "詹氏:大陸將試驗巨浪3飛彈 採用東風41技術". 联合早报网. Retrieved 2017-08-08.


  37. ^ "EXPRESS EXCLUSIVE: Maiden Test of Undersea K-4 Missile From Arihant Submarine".


  38. ^ "Going nuclear at sea". The Indian Express. 19 March 2015. Retrieved 11 January 2017.


  39. ^ "India's First Ballistic Missile Sub to Begin Sea Trials". The Diplomat. 30 July 2013. Retrieved 11 January 2017.


  40. ^ (2nd LD) N.K. leader calls SLBM launch success, boasts of nuke attack capacity – Yonhap, 25 August 2016 08:17 am





  • Friedman, Norman (1994). U.S. Submarines Since 1945: An Illustrated Design History. Annapolis, Maryland: United States Naval Institute. ISBN 1-55750-260-9.


  • Gardiner, Robert; Chumbley, Stephen (1995). Conway's All the World's Fighting Ships 1947–1995. London: Conway Maritime Press. ISBN 1-55750-132-7.


  • Polmar, Norman (1981). The American Submarine. Annapolis, Maryland: Nautical and Aviation Publishing. pp. 123–136. ISBN 0-933852-14-2.



External links







  • Navweaps.com US naval missiles index page

  • Navweaps.com Soviet and Russian naval missiles index page

  • Navweaps.com UK naval missiles index page


  • Video showing the launch of a Trident SLBM.

  • Estimated Strategic Nuclear Weapons Inventories (September 2004)

  • R-11 SLBM

  • Trident Submarines Are Killing Machines Unparalleled In Human History.

  • NavSource.org SSBN photo gallery index









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