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An Entity of Type : dbkwik:resource/3bR2Nv_ywRSQmZtPM1D1FQ==, within Data Space : 134.155.108.49:8890 associated with source dataset(s)

The so-called "runt" device was a weaponized "dry" fusion bomb, using lithium deuteride fuel for the fusion stage of a "staged" fusion bomb, unlike the cryogenic liquid deuterium of the first-generation Ivy Mike fusion device. Like the Ivy Mike and Castle Bravo tests, a large percentage of the yield was produced by fast fission of the natural uranium "tamper"; 7 megatons of the yield were from this source.

AttributesValues
rdf:type
rdfs:label
  • Castle Romeo
rdfs:comment
  • The so-called "runt" device was a weaponized "dry" fusion bomb, using lithium deuteride fuel for the fusion stage of a "staged" fusion bomb, unlike the cryogenic liquid deuterium of the first-generation Ivy Mike fusion device. Like the Ivy Mike and Castle Bravo tests, a large percentage of the yield was produced by fast fission of the natural uranium "tamper"; 7 megatons of the yield were from this source.
sameAs
dcterms:subject
dbkwik:military/pr...iPageUsesTemplate
Date
  • 1954-03-27(xsd:date)
Picture
  • Castle Romeo.jpg
Country
  • United States
Name
  • Military Effects Studies Operation Castle
  • Nuclear Test Film - Operation Castle
  • Operation Castle Commanders Report
  • Castle Romeo
yield
  • 11(xsd:integer)
test site
  • Bikini Atoll
test type
picture description
  • Castle Romeo mushroom cloud.
ID
  • CastleCommandersReport1954
  • MilitaryEffectsStudiesonOperationCastle1954
  • gov.doe.0800013
test series
abstract
  • The so-called "runt" device was a weaponized "dry" fusion bomb, using lithium deuteride fuel for the fusion stage of a "staged" fusion bomb, unlike the cryogenic liquid deuterium of the first-generation Ivy Mike fusion device. Similar to the "Shrimp" device tested shortly before, in the Castle Bravo test, it differed from that device in using lithium deuteride derived from natural lithium (a mixture of Lithium-6 and Lithium-7 isotopes, with 7.5% of the former) as the source of the tritium and deuterium fusion fuels, as opposed to the relative high enrichment level of lithium (approximately 40% Lithium-6) deuteride used in Bravo. It was detonated on March 27, 1954, after several delays (which played havoc with the planned experimental measurements program) at Bikini Atoll of the Marshall Islands, on a barge moored in the middle of the crater from the Castle Bravo test. It was the first such barge-based test, a necessity that had come about because the powerful thermonuclear devices completely obliterated the small islands on which they were set off. Like the Bravo test, it "ran away" and produced far more than its predicted yield, and for the same reason—an unexpected participation of the common Lithium-7 isotope in fusion reactions. Although it had been predicted to produce a yield of 4 megatons with a range of 1.5 to 7 megatons (before the results of the Bravo test caused an upgrade in the estimates, it had originally been estimated to produce 3–5 megatons), it actually produced a yield of 11 megatons, the third largest test ever conducted by the U.S. Like the Ivy Mike and Castle Bravo tests, a large percentage of the yield was produced by fast fission of the natural uranium "tamper"; 7 megatons of the yield were from this source.
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