Quasibosons composed of two q-fermions: realization by deformed oscillators

Composite bosons, here called {\it quasibosons} (e.g. mesons, excitons, etc.), occur in various physical situations. Quasibosons differ from bosons or fermions as their creation and annihilation operators obey non-standard commutation relations, even for the "fermion+fermion" composites. O...

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Bibliographic Details
Published in:arXiv.org 2011-11
Main Authors: Gavrilik, A M, Kachurik, I I, Mishchenko, Yu A
Format: Article
Language:English
Subjects:
Bosons
Commutation
Deformation
Excitons
Fermions
Mathematical analysis
Mesons
Operators (mathematics)
Oscillators
Polynomials
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Summary:Composite bosons, here called {\it quasibosons} (e.g. mesons, excitons, etc.), occur in various physical situations. Quasibosons differ from bosons or fermions as their creation and annihilation operators obey non-standard commutation relations, even for the "fermion+fermion" composites. Our aim is to realize the operator algebra of quasibosons composed of two fermions or two q-fermions (q-deformed fermions) by the respective operators of deformed oscillators, the widely studied objects. For this, the restrictions on quasiboson creation/annihilation operators and on the deformed oscillator (deformed boson) algebra are obtained. Their resolving proves uniqueness of the family of deformations and gives explicitly the deformation structure function (DSF) which provides the desired realization. In case of two fermions as constituents, such realization is achieved when the DSF is quadratic polynomial in the number operator. In the case of two q-fermions, q\neq 1, the obtained DSF inherits the parameter q and does not continuously converge when q\to 1 to the DSF of the first case.
ISSN:2331-8422
DOI:10.48550/arxiv.1107.5704