Stellar krypton cross sections at kT=25 and 52 keV

F. Käppeler; A. A. Naqvi; M. Al-Ohali

doi:10.1103/PhysRevC.35.936

Stellar krypton cross sections at kT=25 and 52 keV

F. Käppeler^*
, A. A. Naqvi
, M. Al-Ohali

^*Corresponding author for this work

King Fahd University of Petroleum & Minerals

Research output: Contribution to journal › Article › peer-review

45 Scopus citations

Abstract

Studies of neutron capture nucleosynthesis in the s process usually refer to a thermal energy of kT=30 keV, corresponding to a temperature of T=3.5×108 K. This convention is justified as stellar neutron capture rates are in general not sensitive to temperature because of the approximate En-1/2 dependence of most capture cross sections. But several important exceptions of this rule require more detailed information on the variation of the average stellar cross section with temperature. We show that activation measurements can be performed in a quasistellar neutron spectrum for kT=52 keV, using kinematically collimated neutrons from the H3(p,n) reaction. Neutron capture cross sections were measured in this spectrum and at kT=25 keV for Kr86(n,) and for the reaction Kr84(n,) 85Krm, which populates the isomeric state in Kr85. In this way, the respective 30 keV cross sections of 3.50.3 and 16.71.2 mb could be derived by interpolation.

Original language	English
Pages (from-to)	936-941
Number of pages	6
Journal	Physical Review C
Volume	35
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevC.35.936
State	Published - 1987

ASJC Scopus subject areas

Nuclear and High Energy Physics

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title = "Stellar krypton cross sections at kT=25 and 52 keV",

abstract = "Studies of neutron capture nucleosynthesis in the s process usually refer to a thermal energy of kT=30 keV, corresponding to a temperature of T=3.5×108 K. This convention is justified as stellar neutron capture rates are in general not sensitive to temperature because of the approximate En-1/2 dependence of most capture cross sections. But several important exceptions of this rule require more detailed information on the variation of the average stellar cross section with temperature. We show that activation measurements can be performed in a quasistellar neutron spectrum for kT=52 keV, using kinematically collimated neutrons from the H3(p,n) reaction. Neutron capture cross sections were measured in this spectrum and at kT=25 keV for Kr86(n,) and for the reaction Kr84(n,) 85Krm, which populates the isomeric state in Kr85. In this way, the respective 30 keV cross sections of 3.50.3 and 16.71.2 mb could be derived by interpolation.",

author = "F. K{\"a}ppeler and Naqvi, \{A. A.\} and M. Al-Ohali",

year = "1987",

doi = "10.1103/PhysRevC.35.936",

language = "English",

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TY - JOUR

T1 - Stellar krypton cross sections at kT=25 and 52 keV

AU - Käppeler, F.

AU - Naqvi, A. A.

AU - Al-Ohali, M.

PY - 1987

Y1 - 1987

N2 - Studies of neutron capture nucleosynthesis in the s process usually refer to a thermal energy of kT=30 keV, corresponding to a temperature of T=3.5×108 K. This convention is justified as stellar neutron capture rates are in general not sensitive to temperature because of the approximate En-1/2 dependence of most capture cross sections. But several important exceptions of this rule require more detailed information on the variation of the average stellar cross section with temperature. We show that activation measurements can be performed in a quasistellar neutron spectrum for kT=52 keV, using kinematically collimated neutrons from the H3(p,n) reaction. Neutron capture cross sections were measured in this spectrum and at kT=25 keV for Kr86(n,) and for the reaction Kr84(n,) 85Krm, which populates the isomeric state in Kr85. In this way, the respective 30 keV cross sections of 3.50.3 and 16.71.2 mb could be derived by interpolation.

AB - Studies of neutron capture nucleosynthesis in the s process usually refer to a thermal energy of kT=30 keV, corresponding to a temperature of T=3.5×108 K. This convention is justified as stellar neutron capture rates are in general not sensitive to temperature because of the approximate En-1/2 dependence of most capture cross sections. But several important exceptions of this rule require more detailed information on the variation of the average stellar cross section with temperature. We show that activation measurements can be performed in a quasistellar neutron spectrum for kT=52 keV, using kinematically collimated neutrons from the H3(p,n) reaction. Neutron capture cross sections were measured in this spectrum and at kT=25 keV for Kr86(n,) and for the reaction Kr84(n,) 85Krm, which populates the isomeric state in Kr85. In this way, the respective 30 keV cross sections of 3.50.3 and 16.71.2 mb could be derived by interpolation.

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DO - 10.1103/PhysRevC.35.936

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JO - Physical Review C

JF - Physical Review C

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ER -

Stellar krypton cross sections at kT=25 and 52 keV

Abstract

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