Mark 4 nuclear bomb


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 and was in use until 1953.

Design

The Mark 4 utilized a near-identical nuclear explosive package to the 1516 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. Many things slowed and delayed the design and production of the Mark 4, the first of which is 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 resin and hook-up wire. Personnel from Z Division were also used to assist with the Mark 3 tests in Operation Crossroads in 1946 and again for weapons testing at Eniwetok for Operation Sandstone in 1948. 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'. 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. 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.
The Mark 4 was in diameter and long, the same basic dimensions as Mark 3. It weighed slightly more at, depending on the specific Mark 4 version.
In addition to being easier to manufacture, the Mark 4 introduced the concept of in-flight insertion, 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. To arm the bomb, the fissile nuclear materials are inserted into the bomb core through a removable segment of the explosive lens assembly, which is then replaced and the weapon closed and armed.
Mark 4 models used composite uranium and plutonium fissile 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.
Various versions of the Mark 4 had explosive yields of 1, 3.5, 8, 14, 21, 22, and 31 kilotons.

Operational history

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

W4 missile warhead

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