Operation Castle - Experiments

Experiments

Operation Castle was organized into seven experiments, all but one of which were to take place at Bikini Atoll. Below is the original test schedule (as of February 1954).

Operation Castle Schedule
Experiment Device Prototype Fuel Date Predicted yield Manufacturer Test location
BRAVO Shrimp TX-21 40% Li-6 D (dry) 1 March 1954 6 Mt Los Alamos Scientific Laboratory Reef off Nam Is, Bikini
UNION Alarm Clock EC-14 95% Li-6 D (dry) 11 March 1954 3-4 Mt Los Alamos Scientific Laboratory Barge off Iroij, Bikini
YANKEE Jughead / Runt-II TX/EC-16 / TX/EC-24 Cryo H-2 (wet) / 40% Li-6 D (dry) 22 March 1954 8 Mt Los Alamos Scientific Laboratory Barge off Iroij, Bikini
ECHO Ramrod N/A Cryo H-2 (wet) 29 March 1954 65-275 Kt University of California Radiation Laboratory (Livermore) Eleleron, Enewetak
NECTAR Zombie TX-15 Boosted fission 5 April 1954 1.8 Mt Los Alamos Scientific Laboratory Barge off Iroij, Bikini
ROMEO Runt TX/EC-17A 7.5% Li-6 D (natural) 15 April 1954 4 Mt Los Alamos Scientific Laboratory Barge off Iroij, Bikini
KOON Morgenstern N/A 7.6% Li-6 D (natural) 22 April 1954 1 Mt University of California Radiation Laboratory (Livermore) Eneman, Bikini

Operation Castle was intended to test lithium deuteride (LiD) as a thermonuclear fusion fuel. A solid at room temperature, LiD, if it worked, would be far more practical than the cryogenic liquid deuterium fuel in the Ivy Mike device. The same Teller-Ulam principle would be used as in the Ivy Mike "Sausage" device, but the fusion reactions were different. Ivy Mike fused deuterium with deuterium, but the LiD devices would fuse deuterium with tritium. The tritium was produced during the explosion by irradiating the lithium with fast neutrons.

Bravo and Union used lithium enriched in the Li-6 isotope while Romeo and Koon were fueled with natural lithium (92% Li-7, 7.5% Li-6). The use of natural lithium would be important to the ability of the US to rapidly expand its nuclear stockpile during the Cold War arms race.

As a hedge, development of liquid deuterium weapons continued in parallel. Even though they were much less practical because of the logistical problems dealing with the transport, handling, and storage of a cryogenic device, the cold war arms race drove the demand for a viable fusion weapon. The Ramrod and Jughead devices were liquid fuel designs greatly reduced in size and weight from their Ivy Mike "Sausage" predecessor. The Jughead device was ultimately weaponized and saw limited fielding in the inventory until the dry fuel weapons were common.

Nectar was not a fusion weapon in the same sense as the rest of the Castle series. Even though it used a dry lithium fuel for fission boosting, the principal reaction material in the second stage was uranium and plutonium. Similar to the Teller-Ulam configuration, a fission device was used to create high temperatures and pressures in order to compress a second fissionable mass that would have otherwise been too large to sustain an efficient reaction if it were triggered with conventional explosives. This experiment was intended to develop intermediate yield weapons for expanding the inventory (around 1-2 Mt vs. 4-8).

Many fusion or thermonuclear weapons generate much, or even most, of their yields from fission. Although the U-238 isotope of uranium will not sustain a chain reaction, it still fissions when irradiated by the intense fast neutron flux of a fusion explosion. Because U-238 is plentiful and has no critical mass, it can be added in almost unlimited quantities as a tamper around a fusion bomb, helping to contain the fusion reaction and contributing its own fission energy. Fission of the U-238 tamper contributed 77% (8 megatons) to the yield of the 10.4 Mt Ivy Mike explosion.

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