Mark 4 nuclear bomb

Last updated
Mark 4 nuclear bomb
Mk4 Fat Man bomb.jpg
A Mark 4N riveted aluminum bomb casing. Stockpile Mk 4s used a 2,830 lb (1,280 kg) steel casing. [1]
TypeAir-dropped Nuclear fission weapon
Place of originUnited States
Service history
In service1949–1953
Used by United States Air Force (USAF)
Production history
No. builtAbout 550
Specifications
Mass10,800 to 10,900 pounds (4,900 to 4,940 kg)
Length128 in (3,300 mm)
Diameter60 in (1,500 mm)
Crew1x Weaponeer for pit insertion and arming
FillingComposite uranium and plutonium fissile pits
Detonation
mechanism
focused high explosive implosion
Blast yield1, 3.5, 8, 14, 21, 22, 31 kt (4.2, 14.6, 33.5, 58.6, 87.9, 92.0, 129.7 TJ), depending on construction and/or pit

The Mark 4 nuclear bomb was an American implosion-type nuclear bomb based on the earlier Mark 3 Fat Man design, used in the Trinity test and the bombing of Nagasaki. With the Mark 3 needing each individual component to be hand-assembled by only highly trained technicians under closely controlled conditions, the purpose of the Mark 4 was to produce an atomic weapon as a practical piece of ordnance. The Mark 4 Mod 0 entered the stockpile starting March 19, 1949 [2] and was in use until 1953. With over 500 units procured, the Mark 4 was the first mass-produced nuclear weapon.

Contents

Design

The Mark 4 utilized a near-identical nuclear explosive package to the 1561 assembly of the Mark 3 Fat Man, but the newly-formed Z Division of Los Alamos focused on re-engineering the electronics and conventional explosives packages to be more modular for easier assembly in the field. The priority objectives of the Mark 4 bomb program were to have the ability to monitor the weapon battery and electrical systems while being carried within the bomb bay of an aircraft to target. [3] Many issues slowed and delayed the design and production of the Mark 4, the first of which was the formation and physical placement of Z Division facilities. The early days of Z Division highlighted the lack of infrastructure and logistics of the nuclear weapon enterprise when production of weapon components had to slow due to lack of basic electrical supplies like soldering rosin and hook-up wire. [4] Personnel from Z Division were also used to assist with the Mark 3 tests in Operation Crossroads in 1946 [5] and again for weapons testing at Enewetak for Operation Sandstone in 1948. [5] Though, between tests following a request from Congress on a report on the status of nuclear ordnance, Los Alamos Scientific Laboratory was able to report positive accomplishments such as developing a 'cartridge-type' assembly to house fuzing components and the decision to implement the 'Archie' radar. Along with other developments for the radar, the main component of the system was the APS/13 Tail Warning device which eventually became the 'Archie'. [6] This radar device would close a relay at a predetermined altitude, using four units in each fuze, requiring at least two to fire, allowing a firing signal to proceed. [6] Despite the delays of the early weapons tests, development and stockpile production of the weapon were solidified and streamlined with the rising tensions in Berlin. [7]

The Mark 4 Mod 0 was 60 inches (1.5 m) in diameter and 128 inches (3.3 m) long, the same basic dimensions as Mark 3. It weighed slightly more at 10,800 to 10,900 pounds (4,900 to 4,940 kg), depending on the specific Mark 4 version. (Mark 3 weighed 10,300 lb or 4,670 kg.)

In addition to being easier to manufacture, the Mark 4 Mod 1 introduced the concept of in-flight insertion (IFI), a weapons safety concept which was used for a number of years. An IFI bomb has either manual or mechanical assembly, which keeps the nuclear core stored outside the bomb until close to the point that it may be dropped. Arming the Mark 4 required opening the casing's front hatch, removing the forward polar cap, two outer pentagonal lenses with their detonators, and two inner explosive blocks, and exposing the pit (the lenses and blocks weighed an aggregate 156 kilograms). The pit's aluminum pusher had a removable 12 centimeter diameter, 1 kilogram trap door, and its uranium tamper had a removable 12 centimeter diameter, 3 kilogram trap door. The weaponeer could then insert or remove the core with the use of a special vacuum tool. [8]

Mark 4 models used composite uranium and plutonium fissile pits, as well as uranium and plutonium only pits. The exact pit assemblies were common with several other U.S. nuclear weapons, the Type C and Type D pit assemblies.

Along with being composite cores, the device was the first weapon to rely upon levitated-pit implosion. These early weapons with a levitated pit had a removable pit, called an open-pit. It was stored separately, in a special capsule called a birdcage. [9] Various versions of the Mark 4 had explosive yields of 1, 3.5, 8, 14, 21, 22, and 31 kilotons (4 to 130  TJ).

Operational history

About 550 Mark 4 nuclear weapons were produced. The Mark 4 was succeeded by the Mk6, which was generally similar but much improved.

Beginning in 1950, the US military began to deploy non-nuclear Mark 4 assemblies overseas, including in the United Kingdom (July 1950), and aboard several aircraft carriers in 1950 and 1951. A contingent of 9 Mark 4 non-nuclear assemblies were deployed to Guam in 1950, and Truman authorized the transfer of fissile cores to the base in April 1951. [10] [11]

W4 missile warhead

A variant called the W4 (Warhead 4), intended for use on the SM-62 Snark cruise missile, was designed but never built. The W4 design was canceled in 1951.

Accidents

Several nuclear weapons accidents occurred with Mark 4 non-nuclear assemblies in 1950. These accidents included:

None of these accidents could have achieved a nuclear yield, because they all involved non-nuclear Mark 4 assemblies which lacked the fissile material cores. By order of President Harry S. Truman, the US military was denied access to US nuclear components from 1947 through 1951, as they were kept in the exclusive custody of the U.S. Atomic Energy Commission unless transferred to the military by the president. [10]

See also

Notes

  1. (Hansen 2007, pp. 179–180)
  2. ( Sandia Corporation 1967 , p. 8)
  3. ( Sandia Corporation 1967 , p. 12)
  4. ( Sandia Corporation 1967 , p. 16)
  5. 1 2 ( United States Department of Energy 2015 , p. 2)
  6. 1 2 ( Hawkins, Truslow & Smith 1961 , p. 225)
  7. ( Sandia Corporation 1967 , p. 20)
  8. ( Goetz 2018 , p. 269)
  9. "Archived copy" (PDF). hpschapters.org. Archived from the original (PDF) on 25 February 2007. Retrieved 17 January 2022.{{cite web}}: CS1 maint: archived copy as title (link)
  10. 1 2 Norris, Robert S.; Arkin, William M.; Burr, William (1999). "Where they were" (PDF). Bulletin of the Atomic Scientists. 55 (6): 26–35. doi:10.2968/055006011.
  11. Norris, Robert S.; Arkin, William M. (March 1993). "U.S. weapons secrets revealed". Bulletin of the Atomic Scientists. 49 (2).

Related Research Articles

<span class="mw-page-title-main">Fat Man</span> U.S. atomic bomb type used at Nagasaki, 1945

"Fat Man" was the codename for the type of nuclear weapon the United States detonated over the Japanese city of Nagasaki on 9 August 1945. It was the second of the only two nuclear weapons ever used in warfare, the first being Little Boy, and its detonation marked the third nuclear explosion in history. It was built by scientists and engineers at Los Alamos Laboratory using plutonium from the Hanford Site, and one was dropped from the Boeing B-29 Superfortress Bockscar piloted by Major Charles Sweeney.

<span class="mw-page-title-main">Little Boy</span> Atomic bomb dropped on Hiroshima

Little Boy was the name of the type of atomic bomb used in the bombing of the Japanese city of Hiroshima on 6 August 1945 during World War II, making it the first nuclear weapon used in warfare. The bomb was dropped by the Boeing B-29 Superfortress Enola Gay piloted by Colonel Paul W. Tibbets Jr., commander of the 509th Composite Group, and Captain Robert A. Lewis. It exploded with an energy of approximately 15 kilotons of TNT (63 TJ) and had an explosion radius of approximately 1.3 kilometers which caused widespread death across the city. The Hiroshima bombing was the second nuclear explosion in history, after the Trinity nuclear test.

<span class="mw-page-title-main">Trinity (nuclear test)</span> First detonation of a nuclear weapon

Trinity was the code name of the first detonation of a nuclear weapon, conducted by the United States Army at 5:29 a.m. MWT on July 16, 1945, as part of the Manhattan Project. The test was of an implosion-design plutonium bomb, nicknamed the "gadget", of the same design as the Fat Man bomb later detonated over Nagasaki, Japan, on August 9, 1945. Concerns about whether the complex Fat Man design would work led to a decision to conduct the first nuclear test. The code name "Trinity" was assigned by J. Robert Oppenheimer, the director of the Los Alamos Laboratory, inspired by the poetry of John Donne.

<span class="mw-page-title-main">Nuclear weapon design</span> Process by which nuclear WMDs are designed and produced

Nuclear weapon designs are physical, chemical, and engineering arrangements that cause the physics package of a nuclear weapon to detonate. There are three existing basic design types:

<span class="mw-page-title-main">Operation Sandstone</span> Series of 1940s US nuclear tests

Operation Sandstone was a series of nuclear weapon tests in 1948. It was the third series of American tests, following Trinity in 1945 and Crossroads in 1946, and preceding Ranger. Like the Crossroads tests, the Sandstone tests were carried out at the Pacific Proving Grounds, although at Enewetak Atoll rather than Bikini Atoll. They differed from Crossroads in that they were conducted by the Atomic Energy Commission, with the armed forces having only a supporting role. The purpose of the Sandstone tests was also different: they were primarily tests of new bomb designs rather than of the effects of nuclear weapons. Three tests were carried out in April and May 1948 by Joint Task Force 7, with a work force of 10,366 personnel, of whom 9,890 were military.

<span class="mw-page-title-main">Stockpile stewardship</span>

Stockpile stewardship refers to the United States program of reliability testing and maintenance of its nuclear weapons without the use of nuclear testing.

<span class="mw-page-title-main">Mark 7 nuclear bomb</span> Nuclear bomb

Mark 7 "Thor" was the First tactical fission bomb adopted by US armed forces. It was also the first weapon to be delivered using the toss method with the help of the low-altitude bombing system (LABS). The weapon was tested in Operation Buster-Jangle. To facilitate external carry by fighter-bomber aircraft, Mark 7 was fitted with retractable stabilizer fins. The Mark 7 warhead (W7) also formed the basis of the 30.5 inches (775 mm) BOAR rocket, the Mark 90 Betty nuclear depth charge, MGR-1 Honest John rocket, and MGM-5 Corporal ballistic missile. It was also supplied for delivery by Royal Air Force Canberra aircraft assigned to NATO in Germany under the command of SACEUR. This was done under the auspices of Project E, an agreement between the United States and the UK on the RAF carriage of US nuclear weapons. In UK use it was designated 1,650 lb. H.E. M.C. The Mark 7 was in service from 1952 to 1967(8) with 1700–1800 having been built.

<span class="mw-page-title-main">Gun-type fission weapon</span> Fission-based nuclear weapon

Gun-type fission weapons are fission-based nuclear weapons whose design assembles their fissile material into a supercritical mass by the use of the "gun" method: shooting one piece of sub-critical material into another. Although this is sometimes pictured as two sub-critical hemispheres driven together to make a supercritical sphere, typically a hollow projectile is shot onto a spike, which fills the hole in its center. Its name is a reference to the fact that it is shooting the material through an artillery barrel as if it were a projectile.

<span class="mw-page-title-main">Mark 5 nuclear bomb</span> Nuclear weapon design

The Mark 5 nuclear bomb and W5 nuclear warhead were a common core American nuclear weapon design, designed in the early 1950s and which saw service from 1952 to 1963.

<span class="mw-page-title-main">Mark 39 nuclear bomb</span> Thermonuclear warhead

The Mark 39 nuclear bomb and W39 nuclear warhead were versions of an American thermonuclear weapon, which were in service from 1957 to 1966.

<span class="mw-page-title-main">Mark 18 nuclear bomb</span> American nuclear bomb design

The Mark 18 nuclear bomb, also known as the SOB or Super Oralloy Bomb, was an American nuclear bomb design which was the highest yield fission bomb produced by the US. The Mark 18 had a design yield of 500 kilotons. Nuclear weapon designer Ted Taylor was the lead designer for the Mark 18.

<span class="mw-page-title-main">Mark 6 nuclear bomb</span> Type of bomb

The Mark 6 nuclear bomb was an American nuclear bomb based on the earlier Mark 4 nuclear bomb and its predecessor, the Mark 3 Fat Man nuclear bomb design.

<span class="mw-page-title-main">W33 (nuclear warhead)</span> American nuclear artillery shell

The W33 was an American nuclear artillery shell designed for use in the 8-inch (203 mm) M110 howitzer and M115 howitzer.

<span class="mw-page-title-main">Orange Herald</span> British nuclear weapons

Orange Herald was a British nuclear weapon, tested on 31 May 1957. At the time it was reported as an H-bomb, although in fact it was a large boosted fission weapon and remains to date, the largest fission device ever detonated.

<span class="mw-page-title-main">Mark 17 nuclear bomb</span> American hydrogen bomb

The Mark 17 and Mark 24 were the first mass-produced hydrogen bombs deployed by the United States. The two differed in their "primary" stages. They entered service in 1954, and were phased out by 1957.

A modulated neutron initiator is a neutron source capable of producing a burst of neutrons on activation. It is a crucial part of some nuclear weapons, as its role is to "kick-start" the chain reaction at the optimal moment when the configuration is prompt critical. It is also known as an internal neutron initiator. The initiator is typically placed in the center of the plutonium pit, and is activated by impact of the converging shock wave.

<span class="mw-page-title-main">Uranium hydride bomb</span> Type of atomic bomb

The uranium hydride bomb was a variant design of the atomic bomb first suggested by Robert Oppenheimer in 1939 and advocated and tested by Edward Teller. It used deuterium, an isotope of hydrogen, as a neutron moderator in a uranium-deuterium ceramic compact. Unlike all other fission-based weapon types, the concept relies on a chain reaction of slow nuclear fission. Bomb efficiency was adversely affected by the cooling of neutrons since the latter delays the reaction, as delineated by Rob Serber in his 1992 extension of the original Los Alamos Primer.

<span class="mw-page-title-main">Pit (nuclear weapon)</span> Core of a nuclear implosion weapon

In nuclear weapon design, the pit is the core of an implosion nuclear weapon, consisting of fissile material and any neutron reflector or tamper bonded to it. Some weapons tested during the 1950s used pits made with uranium-235 alone, or as a composite with plutonium. All-plutonium pits are the smallest in diameter and have been the standard since the early 1960s. The pit is named after the hard core found in stonefruit such as peaches and apricots.

<span class="mw-page-title-main">Armed Forces Special Weapons Project</span> U.S. nuclear weapons agency until 1947

The Armed Forces Special Weapons Project (AFSWP) was a United States military agency responsible for those aspects of nuclear weapons remaining under military control after the Manhattan Project was succeeded by the Atomic Energy Commission on 1 January 1947. These responsibilities included the maintenance, storage, surveillance, security and handling of nuclear weapons, as well as supporting nuclear testing. The AFSWP was a joint organization, staffed by the United States Army, United States Navy and United States Air Force; its chief was supported by deputies from the other two services. Major General Leslie R. Groves, the former head of the Manhattan Project, was its first chief.

<span class="mw-page-title-main">Project Y</span> Secret laboratory established by the Manhattan Project

The Los Alamos Laboratory, also known as Project Y, was a secret laboratory established by the Manhattan Project and operated by the University of California during World War II. Its mission was to design and build the first atomic bombs. Robert Oppenheimer was its first director, serving from 1943 to December 1945, when he was succeeded by Norris Bradbury. In order to enable scientists to freely discuss their work while preserving security, the laboratory was located on the isolated Pajarito Plateau in Northern New Mexico. The wartime laboratory occupied buildings that had once been part of the Los Alamos Ranch School.

References

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.