Quantum Numbers and the Eigenfunction Approach to Obtain Symmetry Adapted Functions for Discrete Symmetries

Quantum Numbers and the Eigenfunction Approach to Obtain Symmetry Adapted Functions for Discrete Symmetries

The eigenfunction approach used for discrete symmetries is deduced from the concept of quantum numbers. We show that the irreducible representations (irreps) associated with the eigenfunctions are indeed a shorthand notation for the set of eigenvalues of the class operators (character table). The ne...

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Bibliographic Details
Main Author: Renato Lemus
Format: Article
Language:English
Published: MDPI AG 2012-11-01
Series:Symmetry
Subjects:
quantum numbers
discrete systems
symmetry projection
eigenfunction method
H+3
CH4
Online Access:http://www.mdpi.com/2073-8994/4/4/667
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spelling doaj-c3675a529329435dba8cdd241e74c9992020-11-24T22:47:54ZengMDPI AGSymmetry2073-89942012-11-014466768510.3390/sym4040667Quantum Numbers and the Eigenfunction Approach to Obtain Symmetry Adapted Functions for Discrete SymmetriesRenato LemusThe eigenfunction approach used for discrete symmetries is deduced from the concept of quantum numbers. We show that the irreducible representations (irreps) associated with the eigenfunctions are indeed a shorthand notation for the set of eigenvalues of the class operators (character table). The need of a canonical chain of groups to establish a complete set of commuting operators is emphasized. This analysis allows us to establish in natural form the connection between the quantum numbers and the eigenfunction method proposed by J.Q. Chen to obtain symmetry adapted functions. We then proceed to present a friendly version of the eigenfunction method to project functions.http://www.mdpi.com/2073-8994/4/4/667quantum numbersdiscrete systemssymmetry projectioneigenfunction methodH+3CH4
collection DOAJ
language English
format Article
sources DOAJ
author Renato Lemus
spellingShingle Renato Lemus
Quantum Numbers and the Eigenfunction Approach to Obtain Symmetry Adapted Functions for Discrete Symmetries
Symmetry
quantum numbers
discrete systems
symmetry projection
eigenfunction method
H+3
CH4
author_facet Renato Lemus
author_sort Renato Lemus
title Quantum Numbers and the Eigenfunction Approach to Obtain Symmetry Adapted Functions for Discrete Symmetries
title_short Quantum Numbers and the Eigenfunction Approach to Obtain Symmetry Adapted Functions for Discrete Symmetries
title_full Quantum Numbers and the Eigenfunction Approach to Obtain Symmetry Adapted Functions for Discrete Symmetries
title_fullStr Quantum Numbers and the Eigenfunction Approach to Obtain Symmetry Adapted Functions for Discrete Symmetries
title_full_unstemmed Quantum Numbers and the Eigenfunction Approach to Obtain Symmetry Adapted Functions for Discrete Symmetries
title_sort quantum numbers and the eigenfunction approach to obtain symmetry adapted functions for discrete symmetries
publisher MDPI AG
series Symmetry
issn 2073-8994
publishDate 2012-11-01
description The eigenfunction approach used for discrete symmetries is deduced from the concept of quantum numbers. We show that the irreducible representations (irreps) associated with the eigenfunctions are indeed a shorthand notation for the set of eigenvalues of the class operators (character table). The need of a canonical chain of groups to establish a complete set of commuting operators is emphasized. This analysis allows us to establish in natural form the connection between the quantum numbers and the eigenfunction method proposed by J.Q. Chen to obtain symmetry adapted functions. We then proceed to present a friendly version of the eigenfunction method to project functions.
topic quantum numbers
discrete systems
symmetry projection
eigenfunction method
H+3
CH4
url http://www.mdpi.com/2073-8994/4/4/667
work_keys_str_mv AT renatolemus quantumnumbersandtheeigenfunctionapproachtoobtainsymmetryadaptedfunctionsfordiscretesymmetries
_version_ 1725680623751790592

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