Nuclear Science for the Manhattan Project and Comparison to Today’s ENDF Data

Chadwick, M.B.

doi:10.1080/00295450.2021.1901002

Cited by 14 publications

(13 citation statements)

References 55 publications

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“…Additional information on nuclear data from the Manhattan Project is given in a different work in this same issue. 57…”

Section: Nuclear Datamentioning

confidence: 99%

“…These critical mass estimates should also be compared against calculations of 25 critical mass, given in this issue. 57 The same approach can also be applied to the Lady Godiva experiment performed at Los Alamos in the 1950s. 8 Unlike the deeply subcritical spherical experiments discussed in this section, Lady Godiva was a bare sphere of HEU that was critical.…”

Section: And 49 Metal Spherical Experi-mentsmentioning

confidence: 99%

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Criticality Experiments with Fast ²³⁵U and ²³⁹Pu Metal and Hydride Systems During the Manhattan Project

et al. 2021

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Criticality experiments with 235 U (metal and hydride) and 239 Pu (metal) were performed during the Manhattan Project. Results from these experiments provided necessary information for the success of the Manhattan Project. These experiments have been previously described in compilations made after the Manhattan Project, 1-3 but those works are either lacking in technical details or are not publicly available. This work aims to provide detailed information while showcasing the enduring impact of these experiments 75 years after they were performed. Furthermore, we use modern computational methods embodied in the MCNP6 code and ENDF data to analyze and interpret these historic measurements. The world's first four criticality accidents are also discussed, as lessons learned from these helped shape the field of criticality experiments.

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“…Additional information on nuclear data from the Manhattan Project is given in a different work in this same issue. 57…”

Section: Nuclear Datamentioning

confidence: 99%

Section: And 49 Metal Spherical Experi-mentsmentioning

confidence: 99%

Criticality Experiments with Fast ²³⁵U and ²³⁹Pu Metal and Hydride Systems During the Manhattan Project

et al. 2021

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“…Early critical experiments were done using reflected geometries. 5,6 The critical radius was determined by plotting the inverse of the observed neutron multiplication as increasingly more material was added and extrapolating for the point of infinite multiplication. This paper discusses the various computational methods for solving the neutron transport equation during the Manhattan Project, the evolution of a new computational capability, and the invention of stochastic methods, focusing on Monte Carlo, and nuclear data.…”

Section: Ib Early Understanding Of Fissionmentioning

confidence: 99%

Neutronics Calculation Advances at Los Alamos: Manhattan Project to Monte Carlo

et al. 2021

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The history and advances of neutronics calculations at Los Alamos during the Manhattan Project through the present is reviewed. We briefly summarize early simpler, and more approximate neutronics methods. We then motivate the need to better predict neutronics behavior through consideration of theoretical equations, models and algorithms, experimental measurements, and available computing capabilities and their limitations. These, coupled with increasing post-war defense needs, and the invention of electronic computing led to the creation of Monte Carlo neutronics transport. As a part of the history, we note the crucial role that the scientific comradery between the great Los Alamos scientists played in the process. We focus heavily on these early developments and the subsequent successes of Monte Carlo and its applications to problems of national defense at Los Alamos. We cover the early methods, algorithms, and computers, electronic and women pioneers, that enabled Monte Carlo to spread to all areas of science.

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“…The most basic properties of plutonium needed to inform a design of a functioning weapon were unknown beyond its half-life and a crude estimate of its nuclear cross section. 1,2 A functioning design would require knowledge of its density and compressibility. 3,4 Construction of a given design would require limits on impurities and the ability to construct a geometricallystable shape that would withstand the rigors of assembly, transport, and deployment.…”

Section: Introductionmentioning

confidence: 99%

The Taming of Plutonium: Plutonium Metallurgy and the Manhattan Project

2021

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We describe the wartime challenges associated with the rapid developments in plutonium chemistry and metallurgy that were necessary to produce the core of the Trinity Device. Beginning with microgram quantities of plutonium metal late in 1943, initial measurements showed a wide and confusing variance in density and other properties. These confusing results were the first clues to the astounding complexity of plutonium. As this complexity was revealed, it introduced new challenges for the fabrication of kilogram-scale parts. In a remarkable period from January 1944 to June 1945, Manhattan Project scientists made rapid progress in understanding plutonium chemistry and metallurgy. By early 1945, they had discovered five of the six ambient-pressure phases of unalloyed plutonium and reported the density of these phases to within a value of 0.1 g/cm 3 of those accepted today. They solved the stability problem introduced by these phases with a rapid alloy development program that ultimately identified gallium as the preferred element to stabilize the delta-phase, producing a plutonium alloy still of scientific and technical interest today. We conclude with a description of post-war developments in these areas, including applications of wartime plutonium metallurgy to civilian applications in nuclear reactors. We dedicate this paper to the memory of Ed Hammel, the Manhattan Project plutonium metallurgist whose previous description and documentation of plutonium history during the war has been essential in our research.

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Nuclear Science for the Manhattan Project and Comparison to Today’s ENDF Data

Cited by 14 publications

References 55 publications

Criticality Experiments with Fast ²³⁵U and ²³⁹Pu Metal and Hydride Systems During the Manhattan Project

Criticality Experiments with Fast ²³⁵U and ²³⁹Pu Metal and Hydride Systems During the Manhattan Project

Neutronics Calculation Advances at Los Alamos: Manhattan Project to Monte Carlo

The Taming of Plutonium: Plutonium Metallurgy and the Manhattan Project

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Nuclear Science for the Manhattan Project and Comparison to Today’s ENDF Data

Cited by 14 publications

References 55 publications

Criticality Experiments with Fast 235U and 239Pu Metal and Hydride Systems During the Manhattan Project

Criticality Experiments with Fast 235U and 239Pu Metal and Hydride Systems During the Manhattan Project

Neutronics Calculation Advances at Los Alamos: Manhattan Project to Monte Carlo

The Taming of Plutonium: Plutonium Metallurgy and the Manhattan Project

Contact Info

Product

Resources

About

Criticality Experiments with Fast ²³⁵U and ²³⁹Pu Metal and Hydride Systems During the Manhattan Project

Criticality Experiments with Fast ²³⁵U and ²³⁹Pu Metal and Hydride Systems During the Manhattan Project