Modulated neutron initiator
A modulated neutron initiator is a
One of the key elements in the proper operation of a nuclear weapon is initiation of the fission chain reaction at the proper time. To obtain a significant nuclear yield, sufficient neutrons must be present within the supercritical core at the right time. If the chain reaction starts too soon ("
For boosted fission weapons, the size of the centrally placed initiator is critical and has to be as small as possible. The use of an external neutron source allows more flexibility, such as variable yields.
Design
The usual design is based on a combination of
Urchin
Urchin was the code name for the internal neutron initiator used by the
The initiator used in the early devices, located at the center of the bomb's
When the
The 50 curies of polonium generated about 0.1 watts of decay heat, noticeably warming the small sphere.[5]
The grooves in the inner surface of the shell shaped the
The short half-life of polonium (138.376 days) required frequent replacement of initiators and a continued supply of polonium for their manufacture, as their shelf life was only about 4 months.[6] Later designs had shelf life as long as 1 year.
The US government used Postum as a code name for polonium.[7]
Use of polonium for the neutron initiator was proposed in 1944 by Edward Condon, although polonium as an initiator was mentioned as a possibility in the "Los Alamos Primer" lectures given in April 1943. The initiator itself was designed by James L. Tuck,[8] and its development and testing was carried out at Los Alamos National Laboratory in "Gadget" division's initiator group led by Charles Critchfield.[9]
Abner
A different initiator (code named ABNER) was used for the Little Boy uranium bomb. Its design was simpler and it contained less polonium. It was activated by the impact of the uranium projectile to the target. It was added to the design as an afterthought and was not essential for the weapon's function.[10]
TOM initiator
An improved construction of the initiator, probably based on conical or pyramidal indentations, was proposed in 1948, put into production by
Flower
In 1974, India performed the
Other designs
Boosted fission weapons and weapons using external neutron generators offer the possibility of variable yield, allowing selection of the weapon's power depending on the tactical needs.
Development
The polonium used in the urchin initiator was created at Oak Ridge National Laboratory and then extracted and purified as part of the Dayton Project under the leadership of Charles Allen Thomas. The Dayton Project was one of the various sites comprising the Manhattan Project.
In 1949, Mound Laboratories in nearby Miamisburg, Ohio opened as a replacement for the Dayton Project and the new home of nuclear initiator research & development. Polonium-210 was produced by neutron irradiation of bismuth. Production and research of polonium at Mound was phased out in 1971.[15]
Polonium from Dayton was used by the G Division of Los Alamos in initiator design studies at a test site in Sandia Canyon. The initiator group built test assemblies by drilling holes in large turbine ball bearings, inserting the active material, and plugging the holes with bolts. These test assemblies were known as screwballs. The test assemblies were imploded and their remains studied to examine how well the polonium and beryllium mixed.[16]
The production of the beryllium-polonium TOM initiators ended in 1953. The initiators were replaced with a different design, which slightly reduced the weapon yield but its longer shelf life reduced the complexity of the logistics.[17] The sealed neutron initiator, brought into inventory in late 1954, still required a periodic disassembly to access its capsule for maintenance checks. The capsules were phased out completely in 1962.[18]
Urchin style initiators were later superseded by other means of generating neutrons such as pulsed neutron emitters that do not use polonium. Using tritium with a half-life of 12.3 years instead of polonium they have a much longer replacement interval. These are mounted outside the pit and electrically controlled, since neutrons easily pass through considerable mass without interactions. These initiators were more controllable and enable much improved weapon reliability.
See also
References
- ^ Nuclear Weapons FAQ, Section 4.1, Version 2.04: 20 February 1999
- ^ The Design of Gadget, Fat Man, and "Joe 1" (RDS-1) Archived 2010-02-10 at the Wayback Machine. Cartage.org.lb. Retrieved on 2010-02-08.
- ^ On the Origins of the Soviet Atomic Project. Nuclearweaponarchive.org (1998-04-15). Retrieved on 2010-02-08.
- ^ Nuclear Weapons FAQ, Section 8.0, Version 2.18: 3 July 2007
- ^ 4.1 Elements of Fission Weapon Design. Nuclearweaponarchive.org (1953-05-19). Retrieved on 2010-02-08.
- ^ Abrahamson|The Sandia Pioneers. Unc.edu. Retrieved on 2010-02-08.
- ^ Injecting Polonium into Humans, Federation of American Scientists, December 12th, 2006 by Steven Aftergood
- ISBN 978-0-312-06167-8. Retrieved 22 April 2011.
- ^ "The Manhattan Project and predecessor organizations". Array of Contemporary American Physicists. American Institute of Physics. Archived from the original on 2012-10-17. Retrieved 2013-03-11.
- ^ Carey Sublette, Section 8.0 The First Nuclear Weapons, The Nuclear Weapon Archive : A Guide to Nuclear Weapons (July 3, 2007).
- ^ Carey Sublette. (6 August 2001). Gallery of U.S. Nuclear Tests
- ^ India's Nuclear Weapons Program – Smiling Buddha: 1974. Nuclearweaponarchive.org. Retrieved 2010-02-08.
- ^ [1] Archived June 4, 2011, at the Wayback Machine
- ^ Uranium Deuteride Initiators. ArmsControlWonk (2009-12-14). Retrieved on 2010-02-08.
- ^ Polonium. Globalsecurity.org (2005-04-27). Retrieved on 2010-02-08.
- ISBN 0-684-81378-5p. 580
- ^ Note by the secretary, Subject: part III – Weapons Progress Report to the Joint Committee, June – November 1953 . Retrieved on 2010-02-08.
- ^ United States Nuclear Weapons. Globalsecurity.org. Retrieved on 2010-02-08.