THE SHMUSHKEVICH METHOD FOR HIGHER SYMMETRY GROUPS OF INTERACTING PARTICLES

THE SHMUSHKEVICH METHOD FOR HIGHER SYMMETRY GROUPS OF INTERACTING PARTICLES

About 60 years ago, I. Shmushkevich presented a simple ingenious method for computing the relative probabilities of channels involving the same interacting multiplets of particles, without the need to compute the Clebsch-Gordan coefficients. The basic idea of Shmushkevich is “isotopic non-polarizati...

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Main Authors: Mark Bodner, Goce Chadzitaskos, Jiří Patera, Agnieszka Tereszkiewitz
Format: Article
Language:English
Published: CTU Central Library 2013-10-01
Series:Acta Polytechnica
Online Access:https://ojs.cvut.cz/ojs/index.php/ap/article/view/1847
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spelling doaj-d6688c54ba45426ab45fbe10047560ef2020-11-25T00:50:49ZengCTU Central LibraryActa Polytechnica1210-27091805-23632013-10-0153510.14311/AP.2013.53.03951842THE SHMUSHKEVICH METHOD FOR HIGHER SYMMETRY GROUPS OF INTERACTING PARTICLESMark Bodner0Goce Chadzitaskos1Jiří Patera2Agnieszka Tereszkiewitz3MIND Research Institute, 111 Academy Drive, Irvine, CA 92617Faculty of Nuclear Sciences and Physical Engineering, Czech Technical University in Prague, Brehová 7, CZ-11519 Praha 1Centre de Recherches Mathématiques, Université de Montréal, C. P. 6128, succ. Centre-ville, Montréal, H3C 3J7, QuébecInstitute of Mathematics, University of Bialystok, Akademicka 2, PL-15-267 BialystokAbout 60 years ago, I. Shmushkevich presented a simple ingenious method for computing the relative probabilities of channels involving the same interacting multiplets of particles, without the need to compute the Clebsch-Gordan coefficients. The basic idea of Shmushkevich is “isotopic non-polarization” of the states before the interaction and after it. Hence his underlying Lie group was <em>SU</em>(2). We extend this idea to any simple Lie group. This paper determines the relative probabilities of various channels of scattering and decay processes following from the invariance of the interactions with respect to a compact simple a Lie group. Aiming at the probabilities rather than at the Clebsch-Gordan coefficients makes the task easier, and simultaneous consideration of all possible channels for given multiplets involved in the process, makes the task possible. The probability of states with multiplicities greater than 1 is averaged over. Examples with symmetry groups <em>O</em>(5), <em>F</em>(4), and <em>E</em>(8) are shown.https://ojs.cvut.cz/ojs/index.php/ap/article/view/1847
collection DOAJ
language English
format Article
sources DOAJ
author Mark Bodner
Goce Chadzitaskos
Jiří Patera
Agnieszka Tereszkiewitz
spellingShingle Mark Bodner
Goce Chadzitaskos
Jiří Patera
Agnieszka Tereszkiewitz
THE SHMUSHKEVICH METHOD FOR HIGHER SYMMETRY GROUPS OF INTERACTING PARTICLES
Acta Polytechnica
author_facet Mark Bodner
Goce Chadzitaskos
Jiří Patera
Agnieszka Tereszkiewitz
author_sort Mark Bodner
title THE SHMUSHKEVICH METHOD FOR HIGHER SYMMETRY GROUPS OF INTERACTING PARTICLES
title_short THE SHMUSHKEVICH METHOD FOR HIGHER SYMMETRY GROUPS OF INTERACTING PARTICLES
title_full THE SHMUSHKEVICH METHOD FOR HIGHER SYMMETRY GROUPS OF INTERACTING PARTICLES
title_fullStr THE SHMUSHKEVICH METHOD FOR HIGHER SYMMETRY GROUPS OF INTERACTING PARTICLES
title_full_unstemmed THE SHMUSHKEVICH METHOD FOR HIGHER SYMMETRY GROUPS OF INTERACTING PARTICLES
title_sort shmushkevich method for higher symmetry groups of interacting particles
publisher CTU Central Library
series Acta Polytechnica
issn 1210-2709
1805-2363
publishDate 2013-10-01
description About 60 years ago, I. Shmushkevich presented a simple ingenious method for computing the relative probabilities of channels involving the same interacting multiplets of particles, without the need to compute the Clebsch-Gordan coefficients. The basic idea of Shmushkevich is “isotopic non-polarization” of the states before the interaction and after it. Hence his underlying Lie group was <em>SU</em>(2). We extend this idea to any simple Lie group. This paper determines the relative probabilities of various channels of scattering and decay processes following from the invariance of the interactions with respect to a compact simple a Lie group. Aiming at the probabilities rather than at the Clebsch-Gordan coefficients makes the task easier, and simultaneous consideration of all possible channels for given multiplets involved in the process, makes the task possible. The probability of states with multiplicities greater than 1 is averaged over. Examples with symmetry groups <em>O</em>(5), <em>F</em>(4), and <em>E</em>(8) are shown.
url https://ojs.cvut.cz/ojs/index.php/ap/article/view/1847
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