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Books on the topic 'Neutrons Prompts de Fission'

Author: Grafiati
Published: 25 May 2024

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1

Kornilov, Nikolay. Fission Neutrons. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-07133-6.

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2

H, Hamilton Joseph, Ramayya A. V, and Carter H. K, eds. Fission and properties of neutron-rich nuclei: Proceedings of the fourth International Conference, Sanibel Island, USA, 11-17 November 2007. Singapore: World Scientific, 2008.

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3

International Conference on Fission and Properties of Neutron-Rich Nuclei (4th 2007 Sanibel Island, Fla.). Fission and properties of neutron-rich nuclei: Proceedings of the fourth International Conference, Sanibel Island, USA, 11-17 November 2007. Edited by Hamilton Joseph H, Ramayya A. V, and Carter H. K. Singapore: World Scientific, 2008.

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4

Douglas, Grahn, Carnes Bruce A, Thomson John F, U.S. Nuclear Regulatory Commission. Office of Nuclear Regulatory Research. Division of Regulatory Applications., Argonne National Laboratory. Division of Biological and Medical Research., and Argonne National Laboratory, eds. Relative biological effectiveness (RBE) of fission neutrons and gamma rays at occupational exposure levels. Washington, DC: Division of Regulatory Applications, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 1987.

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5

Italy) International Workshop on Fusion Neutrons and Subcritical Nuclear Fission (2011 Varenna. Fusion for neutrons and subcritical nuclear fission: Proceedings of the international conference : Varenna, Italy, 12-15 September 2011. Edited by Källne Jan. Melville, N.Y: American Institute of Physics, 2012.

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6

Afarideh, Hossein. A study of fission in [superior] 238 U induced by Monoenergetic neutrons and heavy ions and oflight particle emission in [superior] 252 Cf spontaneous fission. Birmingham: University of Birmingham, 1988.

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7

Kellett, Mark Adrian. Measurement of the absolute yield of delayed neutrons from the fast neutron induced fission of uranium 235 and 238. Birmingham: University of Birmingham, 1998.

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8

Kornilov, Nikolay. Fission Neutrons: Experiments, Evaluation, Modeling and Open Problems. Springer, 2014.

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9

Kornilov, Nikolay. Fission Neutrons: Experiments, Evaluation, Modeling and Open Problems. Springer, 2016.

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10

Kornilov, Nikolay. Fission Neutrons: Experiments, Evaluation, Modeling and Open Problems. Springer, 2014.

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11

Hamilton, J. H., A. V. Ramayya, Joseph H. Hamilton, and Akunuri V. Ramayya. Fission and Properties of Neutron-Rich Nuclei - Proceedings of the Fifth International Conference on Icfn5. World Scientific Publishing Co Pte Ltd, 2013.

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12

Ramayya, A. V., Joseph H. Hamilton, and P. Talou. Fission and Properties of Neutron-Rich Nuclei: Proceedings of the Sixth International Conference on ICFN6, Sanibel Island, Florida, USA, 6-12 November 2016. World Scientific Publishing Co Pte Ltd, 2017.

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13

(Editor), J. H. Hamilton, ed. Fission and Properties of Neutron-Rich Nuclei: Proceedings of the 3rd International Conference, Sanibel Island, Florida, USA 3 9 November 2002. World Scientific Publishing Company, 2003.

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14

Stuewer, Roger H. The New World. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198827870.003.0015.

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On December 19, 1938, Otto Hahn wrote to Lise Meitner in Stockholm, asking her if she could propose some “fantastic explanation” for his and Fritz Strassmann’s finding of barium when bombarding uranium with neutrons. She and Otto Robert Frisch found such an explanation for what he called “nuclear fission” over the Christmas holidays, based on Gamow’s liquid-drop model of the nucleus. Bohr was astonished by this, but in 1936 he had speculated that the uranium nucleus would just explode. He, his son Erik, and his associate Léon Rosenfeld then took a ship to New York, arriving on January 16, 1939. Rosenfeld reported the discovery of fission that evening to the Princeton physics journal club. On January 26, physicists everywhere learned about this stunning discovery when Bohr and Fermi reported it at a conference in Washington, D.C. Physicists entered the New World of Nuclear Physics, taking Humanity with them.
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15

Close, Frank. 2. Nuclear alchemy. Oxford University Press, 2015. http://dx.doi.org/10.1093/actrade/9780198718635.003.0002.

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‘Nuclear alchemy’ outlines the further discoveries of protons (the carriers of positive charge in atoms) by Ernest Rutherford and neutrons (particles with no electrical charge) by James Chadwick, which led to the further explanation of atomic structure. It also describes transmutation; isotopes; gamma radioactivity; sources of radioactivity; nuclear energy scales and units; the work of Irene and Frédéric Joliot-Curie on induced radioactivity and nuclear fission; and energy waves and resolution. It was in 1932 that John Cockroft and Ernest Walton made the first nuclear particle accelerator and created a practical tool for investigating the structure of the atomic nucleus.
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16

Stuewer, Roger H. The Age of Innocence. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198827870.001.0001.

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Nuclear physics emerged as the dominant field in experimental and theoretical physics between 1919 and 1939, the two decades between the First and Second World Wars. Milestones were Ernest Rutherford’s discovery of artificial nuclear disintegration (1919), George Gamow’s and Ronald Gurney and Edward Condon’s simultaneous quantum-mechanical theory of alpha decay (1928), Harold Urey’s discovery of deuterium (the deuteron), James Chadwick’s discovery of the neutron, Carl Anderson’s discovery of the positron, John Cockcroft and Ernest Walton’s invention of their eponymous linear accelerator, and Ernest Lawrence’s invention of the cyclotron (1931–2), Frédéric and Irène Joliot-Curie’s discovery and confirmation of artificial radioactivity (1934), Enrico Fermi’s theory of beta decay based on Wolfgang Pauli’s neutrino hypothesis and Fermi’s discovery of the efficacy of slow neutrons in nuclear reactions (1934), Niels Bohr’s theory of the compound nucleus and Gregory Breit and Eugene Wigner’s theory of nucleus+neutron resonances (1936), and Lise Meitner and Otto Robert Frisch’s interpretation of nuclear fission, based on Gamow’s liquid-drop model of the nucleus (1938), which Frisch confirmed experimentally (1939). These achievements reflected the idiosyncratic personalities of the physicists who made them; they were shaped by the physical and intellectual environments of the countries and institutions in which they worked; and they were buffeted by the profound social and political upheavals after the Great War: the punitive postwar treaties, the runaway inflation in Germany and Austria, the Great Depression, and the greatest intellectual migration in history, which encompassed some of the most gifted experimental and theoretical nuclear physicists in the world.
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