Demon core
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The demon core was a sphere of plutonium that was involved in two fatal radiation accidents when scientists tested it as a fissile core of an early atomic bomb. It was manufactured by the Manhattan Project, the U.S. nuclear weapon development effort during World War II. It was a subcritical mass that weighed 6.2 kilograms (14 lb) and was 8.9 centimeters (3.5 in) in diameter.
The core was prepared for shipment to the Pacific Theater as part of the third nuclear weapon to be dropped on Japan, but when Japan surrendered, the core was retained for testing and potential later use in the case of another conflict.
The two criticality accidents occurred at the Los Alamos Laboratory in New Mexico on August 21, 1945, and May 21, 1946. In both cases, an experiment was intended to demonstrate how close the core was to criticality with a tamper (layer of dense material surrounding the fissile material). Still, the core was accidentally put into a critical configuration. Physicists Harry Daghlian (in the first accident) and Louis Slotin (in the second accident) suffered acute radiation syndrome and died shortly afterward. At the same time, others present in the laboratory were also exposed. The core was melted down during the summer of 1946, and the material was recycled for use in other cores.
Manufacturing and early history
[edit]The demon core (like the core used in the bombing of Nagasaki) was, when assembled, a solid 6.2-kilogram (14 lb) sphere measuring 8.9 centimeters (3.5 in) in diameter. It consisted of three parts made of plutonium-gallium: two hemispheres and an anti-jet ring, designed to keep neutron flux from "jetting" out of the joined surface between the hemispheres during implosion. The core of the device used in the Trinity Test at the Alamogordo Bombing and Gunnery Range in July did not have such a ring.[1][2]
The refined plutonium was shipped from the Hanford Site in Washington to the Los Alamos Laboratory; an inventory document dated August 30 shows Los Alamos had expended "HS-1, 2, 3, 4; R-1" (the components of the Trinity and Nagasaki bombs) and had in its possession "HS-5, 6; R-2", finished and in the hands of quality control. Material for "HS-7, R-3" was in the Los Alamos metallurgy section and would also be ready by September 5 (it is not certain whether this date allowed for the unmentioned "HS-8"'s fabrication to complete the fourth core).[3] The metallurgists used a plutonium-gallium alloy, which stabilized the delta (δ) phase allotrope of plutonium so it could be hot pressed into the desired spherical shape. As plutonium was found to corrode readily, the sphere was then coated with nickel.[4]
On August 10, Major General Leslie R. Groves Jr., wrote to General of the Army George C. Marshall, the Chief of Staff of the United States Army, to inform him that:
The next bomb of the implosion type had been scheduled to be ready for delivery on the target on the first good weather after August 24th, 1945. We have gained 4 days in manufacture and expect to ship the final components from New Mexico on August 12th or 13th. Providing there are no unforeseen difficulties in manufacture, in transportation to the theatre or after arrival in the theatre, the bomb should be ready for delivery on the first suitable weather after August 17th or 18th.[3]
Marshall added an annotation, "It is not to be released on Japan without express authority from the President", on President Harry S. Truman's orders.[3] On August 13, the third bomb was scheduled. It was anticipated that it would be ready by August 16 to be dropped on August 19.[3] This was pre-empted by Japan's surrender on August 15, 1945, while preparations were still being made for it to be couriered to Kirtland Field. The third core remained at Los Alamos.[5]
First incident
[edit]The core, once assembled, was designed to be at "−6 cents".[6] In this state, there is only a small safety margin against extraneous factors that might increase reactivity, causing the core to become supercritical, and then prompt critical, a brief state of rapid energy increase.[7] These factors are not common in the environment; they are only likely to occur under conditions such as the compression of the solid metallic core (which would eventually be the method used to explode the bomb), the addition of more nuclear material, or provision of an external reflector which would reflect outbound neutrons back into the core. The experiments conducted at Los Alamos leading to the two fatal accidents were designed to guarantee that the core was indeed close to the critical point by arranging such reflectors and seeing how much neutron reflection was required to approach supercriticality.[6]
On August 21, 1945, the plutonium core produced a burst of neutron radiation that resulted in physicist Harry Daghlian's death. Daghlian made a mistake while performing neutron reflector experiments on the core. He was working alone; a security guard, Private Robert J. Hemmerly, was seated at a desk 10 to 12 feet (3 to 4 m) away.[8] The core was placed within a stack of neutron-reflective tungsten carbide bricks, and the addition of each brick made the assembly closer to criticality. While attempting to stack another brick around the assembly, Daghlian accidentally dropped it onto the core and thereby caused the core to go well into supercriticality, a self-sustaining critical chain reaction. He quickly moved the brick off the assembly, but he received a fatal dose of radiation. He died 25 days later from acute radiation poisoning.[9]
Name | Age at accident | Profession | Dose[8]: 20 | Aftermath |
---|---|---|---|---|
Haroutune "Harry" Krikor Daghlian Jr. | 24 | Physicist | 200 rad (2.0 Gy) neutron 110 rad (1.1 Gy) gamma |
Died 25 days after the accident of acute radiation syndrome, hematopoietic focus[8]: 22 |
Private Robert J. Hemmerly | 29 | Special Engineer Detachment guard | 8 rad (0.080 Gy) neutron 0.1 rad (0.0010 Gy) gamma |
Died in 1978 (33 years after accident) of acute myelogenous leukemia at age 62[8]: 9–11, 22 |
Second incident
[edit]On May 21, 1946,[10] physicist Louis Slotin and seven other personnel were in a Los Alamos laboratory conducting another experiment to verify the closeness of the core to criticality by the positioning of neutron reflectors. Slotin, who was leaving Los Alamos, was showing the technique to Alvin C. Graves, who would use it in a final test before the Operation Crossroads nuclear tests scheduled a month later at Bikini Atoll. It required the operator to place two half-spheres of beryllium (a neutron reflector) around the core to be tested and manually lower the top reflector over the core using a thumb hole at the polar point. As the reflectors were manually moved closer and farther away from each other, neutron detectors indicated the core's neutron multiplication rate. The experimenter needed to maintain a slight separation between the reflector halves to allow enough neutrons to escape from the core in order to stay below criticality. The standard protocol was to use shims between the halves, as allowing them to close completely could result in the instantaneous formation of a critical mass and a lethal power excursion.
By Slotin's own unapproved protocol, the shims were not used. The top half of the reflector was resting directly on the bottom half at one point, while 180 degrees from this point a gap was maintained by the blade of a flat-tipped screwdriver in Slotin's hand. The size of the gap between the reflectors was changed by twisting the screwdriver. Slotin, who was given to bravado,[11] became the local expert, performing the test on almost a dozen occasions, often in his trademark blue jeans and cowboy boots in front of a roomful of observers. Enrico Fermi reportedly told Slotin and others they would be "dead within a year" if they continued performing the test in that manner.[12] Scientists referred to this flirting with the possibility of a nuclear chain reaction as "tickling the dragon's tail", based on a remark by physicist Richard Feynman, who compared the experiments to "tickling the tail of a sleeping dragon".[13][14]
On the day of the accident, Slotin's screwdriver slipped outward a fraction of an inch while he was lowering the top reflector, allowing the reflector to fall into place around the core. Instantly, there was a flash of light; the core had become supercritical, releasing an intense burst of neutron radiation, the exposure of which was calculated based on the estimated half second between when the sphere closed to when Slotin removed the top reflector.[6] Slotin quickly twisted his wrist, flipping the top shell to the floor.[15] The position of Slotin's body over the apparatus shielded the others from much of the neutron radiation, but he received a lethal dose of 1,000 rad (10 Gy) neutron and 114 rad (1.14 Gy) gamma radiation in less than a second. Slotin died nine days later from acute radiation poisoning.
Graves, the next nearest person to the core, was watching over Slotin's shoulder and was thus partially shielded by him. He received a high but non-lethal radiation dose. Graves was hospitalized for several weeks with severe radiation poisoning.[8] He died 19 years later, at age 55, of heart failure. While this may have been caused by Graves' exposure to radiation, the condition may have been hereditary as his father also died of heart failure.[16][17][18]
The second accident was reported by the Associated Press on May 26, 1946: "Four men injured through accidental exposure to radiation in the government's atomic laboratory here [Los Alamos] have been discharged from the hospital and 'immediate condition' of four others is satisfactory, the Army reported today. Dr. Norris E. Bradbury, project director, said the men were injured last Tuesday in what he described as an experiment with fissionable material."[19]
Medical studies
[edit]Later research was performed concerning the health of the men. An early report was published in 1951. A later report was compiled for the U.S. government and submitted in 1979.[8] A summary of its findings:
Name | Origin | Age at accident | Profession | Dose[8] | Aftermath | Ref. |
---|---|---|---|---|---|---|
Louis Alexander Slotin | Winnipeg, Manitoba, Canada | 35 | Physicist | 1,000 rad (10 Gy) neutron 114 rad (1.14 Gy) gamma |
Died 9 days after the accident of acute radiation syndrome, gastrointestinal focus. | [10] |
Alvin C. Graves | Austin, Texas | 36 | Physicist | 166 rad (1.66 Gy) neutron 26 rad (0.26 Gy) gamma |
Died in 1965 (19 years after the accident) of myocardial infarction, with aggravating "compensated myxedema and cataracts", while skiing. | [8] |
Samuel Allan Kline | Chicago, Illinois | 26 | Physics student, later patent attorney | Died in 2001 (55 years after the accident) at age 81; refused to participate with studies and was prevented from obtaining his own medical records from the incident. | [8] | |
Marion Edward Cieslicki | Mt. Lebanon, Pennsylvania | 23 | Physicist | 12 rad (0.12 Gy) neutron 4 rad (0.040 Gy) gamma |
Died of acute myelocytic leukemia in 1965 (19 years after the accident). | [8] |
Dwight Smith Young | Chicago, Illinois | 54 | Photographer | 51 rad (0.51 Gy) neutron 11 rad (0.11 Gy) gamma |
Died of aplastic anemia and bacterial endocarditis in 1975 (29 years after the accident) at age 83. | [8] |
Raemer Edgar Schreiber | McMinnville, Oregon | 36 | Physicist | 9 rad (0.090 Gy) neutron 3 rad (0.030 Gy) gamma |
Died of natural causes in 1998 (52 years after the accident), at age 88. | [8][15] |
Theodore Perlman | New Orleans, Louisiana[20] | 23 | Engineer | 7 rad (0.070 Gy) neutron 2 rad (0.020 Gy) gamma |
"Alive and in good health and spirits" as of 1978; most likely died in June 1988 (42 years after the accident), in Livermore, California. | [8][21] |
Private Patrick Joseph Cleary | New York City, New York | 21 | Security guard | 33 rad (0.33 Gy) neutron 9 rad (0.090 Gy) gamma |
Sergeant 1st Class Cleary was killed in action on 3 September 1950 (4 years after the accident) while serving with the 8th Cavalry Regiment, US Army in the Korean War. | [8][22] |
Two machinists, Paul Long and another, unidentified, in another part of the building, 20–25 ft (6–7.5 m) away, were not treated.[23]
After these incidents the core, originally known as "Rufus", was referred to as the "demon core".[3][24] Hands-on criticality experiments were stopped, and remote-control machines and TV cameras were designed by Schreiber, one of the survivors, to perform such experiments with all personnel at a quarter-mile distance.[15]
Planned uses and fate of the core
[edit]The demon core was intended for use in the Operation Crossroads nuclear tests, but after the second criticality accident, time was needed for its radioactivity to decrease and for it to be re-evaluated for the effects of the fission products it held, some of which were very neutron poisonous to the desired level of fission. The next two cores were shipped for use in Able and Baker, and the demon core was scheduled to be shipped later for the third test of the series, provisionally named Charlie, but that test was canceled because of the unexpected level of radioactivity resulting from the underwater Baker test and the inability to decontaminate the target warships. The core was melted down in summer 1946 and the material recycled for use in other cores.[24]
See also
[edit]References
[edit]- ^ Wellerstein, Alex. "You don't know Fat Man". Restricted data blog. Archived from the original on April 7, 2014. Retrieved April 4, 2014.
- ^ Coster-Mullen, John (2010). Core Differences, from "Atom Bombs: The Top Secret Inside Story of Little Boy and Fat Man". Archived from the original on April 27, 2014. Retrieved April 4, 2014. An error: the illustration caption states the Fat Man core was plated in silver; it was plated in nickel, as the silver plating on the gadget core blistered. The disk in the drawings is a gold foil gasket.
- ^ a b c d e Wellerstein, Alex. "The Third Core's Revenge". Restricted data blog. Archived from the original on April 7, 2014. Retrieved April 4, 2014.
- ^ Baker, Richard D.; Hecker, Siegfried S.; Harbur, Delbert R. (1983). "Plutonium: A Wartime Nightmare but a Metallurgist's Dream" (PDF). Los Alamos Science (Winter/Spring). Los Alamos National Laboratory: 142–151. Archived (PDF) from the original on 17 October 2011. Retrieved 22 November 2010.
- ^ Shreiber, Raemer; Rhodes, Richard (1993). "Raemer Schreiber's Interview". Archived from the original on April 29, 2015. Retrieved May 28, 2015. Raemer Schreiber being interviewed by Richard Rhodes
- ^ a b c McLaughlin, Thomas P.; Monahan, Shean P.; Pruvost, Norman L.; Frolov, Vladimir V.; Ryazanov, Boris G.; Sviridov, Victor I. (May 2000). A review of criticality incidents, 2000 Revision (LA-13638) (PDF) (Report). pp. 70–78. Archived (PDF) from the original on July 22, 2014. Retrieved May 18, 2014.
- ^ Stater, Robert G. (December 13, 2012). "Prompt Criticality: A Concept with False Credentials". Nuke Facts. Archived from the original on March 4, 2016. Retrieved September 27, 2015.
- ^ a b c d e f g h i j k l m n Hempelman, Louis Henry; Lushbaugh, Clarence C.; Voelz, George L. (October 19, 1979). What Has Happened to the Survivors of the Early Los Alamos Nuclear Accidents? (PDF). Conference for Radiation Accident Preparedness. Oak Ridge: Los Alamos Scientific Laboratory. LA-UR-79-2802. Archived (PDF) from the original on September 12, 2014. Retrieved January 5, 2013. Patient numbers in this document have been identified as: 1 – Daghlian, 2 – Hemmerly, 3 – Slotin, 4 – Graves, 5 – Kline, 6 – Young, 7 – Cleary, 8 – Cieleski, 9 – Schreiber, 10 – Perlman
- ^ Miller, Richard L. (1991). Under the Cloud: The Decades of Nuclear Testing. The Woodlands, Texas: Two Sixty Press. pp. 68, 77. ISBN 0-02-921620-6.
- ^ a b "A Review of Criticality Accidents" (PDF). Los Alamos Scientific Laboratory. September 26, 1967. Archived (PDF) from the original on January 18, 2017. Retrieved August 12, 2015.
- ^ "The Demon Core: How One Man Intervened With His Bare Hands During A Nuclear Accident". IFLScience. 17 May 2021.
- ^ Welsome, Eileen (1999). The Plutonium Files. New York: Dial Press. p. 184. ISBN 978-0-385-31402-2. Retrieved November 18, 2012.
- ^ Weber, Bruce (10 April 2001). "Theater Review; A Scientist's Tragic Hubris Attains Critical Mass Onstage". The New York Times. Archived from the original on 3 November 2012. Retrieved 12 November 2007.
- ^ Shepherd-Barr, Kirsten; Lustig, Harry (November–December 2002). "Science as Theater: The Slip of the Screwdriver". American Scientist. 90 (6). Sigma Xi: 550–555. Bibcode:2002AmSci..90..550S. doi:10.1511/2002.6.550. S2CID 208868168. Archived from the original on May 20, 2017.
- ^ a b c Calloway, Larry (July 1995). "Nuclear Naiveté" (PDF). Albuquerque Journal. Archived from the original (PDF) on August 16, 2015. Retrieved August 12, 2015.
- ^ Clifford T. Honicker (November 19, 1989). "America's Radiation Victims: The Hidden Files". The New York Times. p. 11. Archived from the original on August 31, 2016.
- ^ Alsop, Stewart; Robert E. Lapp (March 6, 1954). "The Strange Death of Louis Slotin" (PDF). Saturday Evening Post. Vol. 226, no. 36. pp. 25ff. Archived from the original (PDF) on October 17, 2014. Retrieved April 3, 2014.
- ^ Clifford T. Honicker (November 19, 1989). "America's Radiation Victims: The Hidden Files". The New York Times. Archived from the original on February 17, 2012. Retrieved April 23, 2011.
- ^ Associated Press, "Several at Atomic Bomb Laboratory Injured", The San Bernardino Daily Sun, San Bernardino, California, Monday 27 May 1946, Volume 52, page 1.
- ^ "Theodore Perlman in the 1940 Census | Ancestry®". Ancestry.com.
- ^ State of California. California Death Index, 1940–1997. Sacramento, CA, USA: State of California Department of Health Services, Center for Health Statistics.
- ^ American Battle Monuments Commission. Korean War Veterans Honor Roll. Ancestry.com. WWI, WWII, and Korean War Casualty Listings [database on-line]
- ^ "Louis Slotin". The Atomic Heritage Foundation. Archived from the original on April 7, 2014. Retrieved April 4, 2014.
- ^ a b Wellerstein, Alex (May 21, 2016). "The Demon Core and the Strange Death of Louis Slotin". The New Yorker. Archived from the original on May 24, 2016. Retrieved May 22, 2016.
External links
[edit]- Media related to Demon core at Wikimedia Commons