具有非谐振子复相互作用的不可对角模型的关联函数的代数构造

IF 1 4区 物理与天体物理 Q3 PHYSICS, MATHEMATICAL
I. Marquette, C. Quesne
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引用次数: 1

摘要

首先由Cannata, Ioffe和Nishnianidze研究的具有非调和复相互作用的形状不变,不可分离和不可对角化的二维模型被重新检验,目的是为完成基所需的激发态波函数提供相关函数的代数构造。两个算子A+和A-,来自于形状不变的超对称方法,其中A+作为一个上升算子,而A-湮灭所有的波函数,通过引入一个新的算子B+和B-来完成,其中B-作为缺失的降低算子。然后表明,在A+和B+中建立相关函数作为作用于基态的多项式提供了比原始论文中使用的更有效的方法。特别地,我们已经能够通过考虑接下来的三个激发态,或者通过在哈密顿量中加入一个三次或六次项,来扩展以前关于四次非谐振子的前两个激发态的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Algebraic Construction of Associated Functions of Nondiagonalizable Models with Anharmonic Oscillator Complex Interaction

A shape invariant nonseparable and nondiagonalizable two-dimensional model with anharmonic complex interaction, first studied by Cannata, Ioffe, and Nishnianidze, is re-examined with the purpose of providing an algebraic construction of the associated functions to the excited-state wavefunctions, needed to complete the basis. The two operators A+ and A-, coming from the shape invariant supersymmetric approach, where A+ acts as a raising operator while A-annihilates all wavefunctions, are completed by introducing a novel pair of operators B+ and B-, where B- acts as the missing lowering operator. It is then shown that building the associated functions as polynomials in A+ and B+ acting on the ground state provides a much more efficient approach than that used in the original paper. In particular, we have been able to extend the previous results obtained for the first two excited states of the quartic anharmonic oscillator either by considering the next three excited states or by adding a cubic or a sextic term to the Hamiltonian.

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来源期刊
Reports on Mathematical Physics
Reports on Mathematical Physics 物理-物理:数学物理
CiteScore
1.80
自引率
0.00%
发文量
40
审稿时长
6 months
期刊介绍: Reports on Mathematical Physics publish papers in theoretical physics which present a rigorous mathematical approach to problems of quantum and classical mechanics and field theories, relativity and gravitation, statistical physics, thermodynamics, mathematical foundations of physical theories, etc. Preferred are papers using modern methods of functional analysis, probability theory, differential geometry, algebra and mathematical logic. Papers without direct connection with physics will not be accepted. Manuscripts should be concise, but possibly complete in presentation and discussion, to be comprehensible not only for mathematicians, but also for mathematically oriented theoretical physicists. All papers should describe original work and be written in English.
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