A new microscopic approach to the rotational intensity relations: Application of the high-spin cranking formalism

Yoshifumi R. Shimizu; Takashi Nakatsukasa

doi:10.1016/S0375-9474(96)00304-1

A new microscopic approach to the rotational intensity relations: Application of the high-spin cranking formalism

Yoshifumi R. Shimizu, Takashi Nakatsukasa

Experimental Particle Physics

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

21 Citations (Scopus)

Abstract

The intensity relations for electromagnetic transition rates in the rotational coupling scheme have been a basic tool to understand the properties of nuclear collective rotations. In particular the correction terms to the leading-order relation give the response of the intrinsic motion to the Coriolis and centrifugal forces. We propose a simple and systematic method to calculate the matrix elements of intrinsic operators entering the generalized intensity relations that uses the microscopic cranking formalism. Examples are given to show the usefulness of the method.

Original language	English
Pages (from-to)	22-46
Number of pages	25
Journal	Nuclear Physics A
Volume	611
Issue number	1
DOIs	https://doi.org/10.1016/S0375-9474(96)00304-1
Publication status	Published - Dec 16 1996

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics

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10.1016/S0375-9474(96)00304-1

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title = "A new microscopic approach to the rotational intensity relations: Application of the high-spin cranking formalism",

abstract = "The intensity relations for electromagnetic transition rates in the rotational coupling scheme have been a basic tool to understand the properties of nuclear collective rotations. In particular the correction terms to the leading-order relation give the response of the intrinsic motion to the Coriolis and centrifugal forces. We propose a simple and systematic method to calculate the matrix elements of intrinsic operators entering the generalized intensity relations that uses the microscopic cranking formalism. Examples are given to show the usefulness of the method.",

author = "Shimizu, {Yoshifumi R.} and Takashi Nakatsukasa",

note = "Funding Information: This work is supportedin part by the Grant-in-Aidf or ScientificR esearchf rom the Japan Ministry of EducationS, ciencea nd Culture( No. 08640383)W. e thankt he Institutefo r NuclearT heorya t the Universityo f Washingtonfo r its hospitalitya nd the U.S. Departmenotf Energyf or partials uppordt uringt hec ompletioonf this work.",

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doi = "10.1016/S0375-9474(96)00304-1",

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T1 - A new microscopic approach to the rotational intensity relations

T2 - Application of the high-spin cranking formalism

AU - Shimizu, Yoshifumi R.

AU - Nakatsukasa, Takashi

N1 - Funding Information: This work is supportedin part by the Grant-in-Aidf or ScientificR esearchf rom the Japan Ministry of EducationS, ciencea nd Culture( No. 08640383)W. e thankt he Institutefo r NuclearT heorya t the Universityo f Washingtonfo r its hospitalitya nd the U.S. Departmenotf Energyf or partials uppordt uringt hec ompletioonf this work.

PY - 1996/12/16

Y1 - 1996/12/16

N2 - The intensity relations for electromagnetic transition rates in the rotational coupling scheme have been a basic tool to understand the properties of nuclear collective rotations. In particular the correction terms to the leading-order relation give the response of the intrinsic motion to the Coriolis and centrifugal forces. We propose a simple and systematic method to calculate the matrix elements of intrinsic operators entering the generalized intensity relations that uses the microscopic cranking formalism. Examples are given to show the usefulness of the method.

AB - The intensity relations for electromagnetic transition rates in the rotational coupling scheme have been a basic tool to understand the properties of nuclear collective rotations. In particular the correction terms to the leading-order relation give the response of the intrinsic motion to the Coriolis and centrifugal forces. We propose a simple and systematic method to calculate the matrix elements of intrinsic operators entering the generalized intensity relations that uses the microscopic cranking formalism. Examples are given to show the usefulness of the method.

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A new microscopic approach to the rotational intensity relations: Application of the high-spin cranking formalism

Abstract

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