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Isobaric yield distribution in the fission of uranium by medium-energy protons

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Zeitschriftentitel: Canadian Journal of Chemistry
Personen und Körperschaften: Parikh, S. S., Marsden, D. A., Porile, N. T., Yaffe, L.
In: Canadian Journal of Chemistry, 45, 1967, 16, S. 1863-1873
Format: E-Article
Sprache: Englisch
veröffentlicht:
Canadian Science Publishing
Schlagwörter:
Organic Chemistry
General Chemistry
Catalysis
author_facet Parikh, S. S.
Marsden, D. A.
Porile, N. T.
Yaffe, L.
Parikh, S. S.
Marsden, D. A.
Porile, N. T.
Yaffe, L.
author Parikh, S. S.
Marsden, D. A.
Porile, N. T.
Yaffe, L.
spellingShingle Parikh, S. S.
Marsden, D. A.
Porile, N. T.
Yaffe, L.
Canadian Journal of Chemistry
Isobaric yield distribution in the fission of uranium by medium-energy protons
Organic Chemistry
General Chemistry
Catalysis
author_sort parikh, s. s.
spelling Parikh, S. S. Marsden, D. A. Porile, N. T. Yaffe, L. 0008-4042 1480-3291 Canadian Science Publishing Organic Chemistry General Chemistry Catalysis http://dx.doi.org/10.1139/v67-298 <jats:p> The independent formation cross sections of <jats:sup>139</jats:sup>Ba, <jats:sup>139</jats:sup>Ce, <jats:sup>141</jats:sup>Ce, and <jats:sup>143</jats:sup>Ce, and the cumulative formation cross sections of <jats:sup>139</jats:sup>Cs, <jats:sup>141</jats:sup>Ba, and <jats:sup>143</jats:sup>La, produced from the fission of natural uranium by protons of energies 20–85 MeV, have been measured radiochemically. The proton energies at which the excitation functions reach their maxima correlate well with the neutron-to-proton ratio of the fission product. Nuclear charge-dispersion curves exhibit, with increasing proton energy, the behavior previously found by other workers, i.e. broadening and a shift of the most probable nuclear charge towards stability. </jats:p> Isobaric yield distribution in the fission of uranium by medium-energy protons Canadian Journal of Chemistry
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imprint Canadian Science Publishing, 1967
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series Canadian Journal of Chemistry
source_id 49
title Isobaric yield distribution in the fission of uranium by medium-energy protons
title_unstemmed Isobaric yield distribution in the fission of uranium by medium-energy protons
title_full Isobaric yield distribution in the fission of uranium by medium-energy protons
title_fullStr Isobaric yield distribution in the fission of uranium by medium-energy protons
title_full_unstemmed Isobaric yield distribution in the fission of uranium by medium-energy protons
title_short Isobaric yield distribution in the fission of uranium by medium-energy protons
title_sort isobaric yield distribution in the fission of uranium by medium-energy protons
topic Organic Chemistry
General Chemistry
Catalysis
url http://dx.doi.org/10.1139/v67-298
publishDate 1967
physical 1863-1873
description <jats:p> The independent formation cross sections of <jats:sup>139</jats:sup>Ba, <jats:sup>139</jats:sup>Ce, <jats:sup>141</jats:sup>Ce, and <jats:sup>143</jats:sup>Ce, and the cumulative formation cross sections of <jats:sup>139</jats:sup>Cs, <jats:sup>141</jats:sup>Ba, and <jats:sup>143</jats:sup>La, produced from the fission of natural uranium by protons of energies 20–85 MeV, have been measured radiochemically. The proton energies at which the excitation functions reach their maxima correlate well with the neutron-to-proton ratio of the fission product. Nuclear charge-dispersion curves exhibit, with increasing proton energy, the behavior previously found by other workers, i.e. broadening and a shift of the most probable nuclear charge towards stability. </jats:p>
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author Parikh, S. S., Marsden, D. A., Porile, N. T., Yaffe, L.
author_facet Parikh, S. S., Marsden, D. A., Porile, N. T., Yaffe, L., Parikh, S. S., Marsden, D. A., Porile, N. T., Yaffe, L.
author_sort parikh, s. s.
container_issue 16
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container_title Canadian Journal of Chemistry
container_volume 45
description <jats:p> The independent formation cross sections of <jats:sup>139</jats:sup>Ba, <jats:sup>139</jats:sup>Ce, <jats:sup>141</jats:sup>Ce, and <jats:sup>143</jats:sup>Ce, and the cumulative formation cross sections of <jats:sup>139</jats:sup>Cs, <jats:sup>141</jats:sup>Ba, and <jats:sup>143</jats:sup>La, produced from the fission of natural uranium by protons of energies 20–85 MeV, have been measured radiochemically. The proton energies at which the excitation functions reach their maxima correlate well with the neutron-to-proton ratio of the fission product. Nuclear charge-dispersion curves exhibit, with increasing proton energy, the behavior previously found by other workers, i.e. broadening and a shift of the most probable nuclear charge towards stability. </jats:p>
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spelling Parikh, S. S. Marsden, D. A. Porile, N. T. Yaffe, L. 0008-4042 1480-3291 Canadian Science Publishing Organic Chemistry General Chemistry Catalysis http://dx.doi.org/10.1139/v67-298 <jats:p> The independent formation cross sections of <jats:sup>139</jats:sup>Ba, <jats:sup>139</jats:sup>Ce, <jats:sup>141</jats:sup>Ce, and <jats:sup>143</jats:sup>Ce, and the cumulative formation cross sections of <jats:sup>139</jats:sup>Cs, <jats:sup>141</jats:sup>Ba, and <jats:sup>143</jats:sup>La, produced from the fission of natural uranium by protons of energies 20–85 MeV, have been measured radiochemically. The proton energies at which the excitation functions reach their maxima correlate well with the neutron-to-proton ratio of the fission product. Nuclear charge-dispersion curves exhibit, with increasing proton energy, the behavior previously found by other workers, i.e. broadening and a shift of the most probable nuclear charge towards stability. </jats:p> Isobaric yield distribution in the fission of uranium by medium-energy protons Canadian Journal of Chemistry
spellingShingle Parikh, S. S., Marsden, D. A., Porile, N. T., Yaffe, L., Canadian Journal of Chemistry, Isobaric yield distribution in the fission of uranium by medium-energy protons, Organic Chemistry, General Chemistry, Catalysis
title Isobaric yield distribution in the fission of uranium by medium-energy protons
title_full Isobaric yield distribution in the fission of uranium by medium-energy protons
title_fullStr Isobaric yield distribution in the fission of uranium by medium-energy protons
title_full_unstemmed Isobaric yield distribution in the fission of uranium by medium-energy protons
title_short Isobaric yield distribution in the fission of uranium by medium-energy protons
title_sort isobaric yield distribution in the fission of uranium by medium-energy protons
title_unstemmed Isobaric yield distribution in the fission of uranium by medium-energy protons
topic Organic Chemistry, General Chemistry, Catalysis
url http://dx.doi.org/10.1139/v67-298