Sr86,88(d, He3)Rb85,87 reactions and a possible Z=38 magic number

J. R. Comfort; J. R. Duray; W. J. Braithwaite

doi:10.1103/PhysRevC.8.1354

Sr86,88(d, He3)Rb85,87 reactions and a possible Z=38 magic number

J. R. Comfort, J. R. Duray, W. J. Braithwaite

CLAS-NS: Physics

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

51 Scopus citations

Abstract

The Sr86,88(d, He3)Rb85,87 reactions were studied at a bombarding energy of 28 MeV and angular distributions were obtained for all observed states. Spectroscopic factors were extracted from distorted-wave Born-approximation calculations of the cross sections. These spectroscopic factors, and those from the Sr86,88(He3,d)Y87,89 reactions, were renormalized to satisfy sum-rule constraints. Some configuration mixing in the ground state of Sr88 is inferred. The two g92 neutron holes in Sr86 produce very sizable rearrangements of the proton orbital populations in Sr86.

Original language	English (US)
Pages (from-to)	1354-1362
Number of pages	9
Journal	Physical Review C
Volume	8
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevC.8.1354
State	Published - 1973

ASJC Scopus subject areas

Nuclear and High Energy Physics

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abstract = "The Sr86,88(d, He3)Rb85,87 reactions were studied at a bombarding energy of 28 MeV and angular distributions were obtained for all observed states. Spectroscopic factors were extracted from distorted-wave Born-approximation calculations of the cross sections. These spectroscopic factors, and those from the Sr86,88(He3,d)Y87,89 reactions, were renormalized to satisfy sum-rule constraints. Some configuration mixing in the ground state of Sr88 is inferred. The two g92 neutron holes in Sr86 produce very sizable rearrangements of the proton orbital populations in Sr86.",

author = "Comfort, {J. R.} and Duray, {J. R.} and Braithwaite, {W. J.}",

year = "1973",

doi = "10.1103/PhysRevC.8.1354",

language = "English (US)",

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journal = "Physical Review C - Nuclear Physics",

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AU - Comfort, J. R.

AU - Duray, J. R.

AU - Braithwaite, W. J.

PY - 1973

Y1 - 1973

N2 - The Sr86,88(d, He3)Rb85,87 reactions were studied at a bombarding energy of 28 MeV and angular distributions were obtained for all observed states. Spectroscopic factors were extracted from distorted-wave Born-approximation calculations of the cross sections. These spectroscopic factors, and those from the Sr86,88(He3,d)Y87,89 reactions, were renormalized to satisfy sum-rule constraints. Some configuration mixing in the ground state of Sr88 is inferred. The two g92 neutron holes in Sr86 produce very sizable rearrangements of the proton orbital populations in Sr86.

AB - The Sr86,88(d, He3)Rb85,87 reactions were studied at a bombarding energy of 28 MeV and angular distributions were obtained for all observed states. Spectroscopic factors were extracted from distorted-wave Born-approximation calculations of the cross sections. These spectroscopic factors, and those from the Sr86,88(He3,d)Y87,89 reactions, were renormalized to satisfy sum-rule constraints. Some configuration mixing in the ground state of Sr88 is inferred. The two g92 neutron holes in Sr86 produce very sizable rearrangements of the proton orbital populations in Sr86.

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