Add to ORKGWe discuss and explore new aspects of the generalized Dyson mapping of nuclear collective superalgebras composed of an arbitrary fermion-pair algebra and a set of single-fermion creation/annihilation operators. It is shown that a direct consequence of the particular mapping procedure is the conservation of the total number of ideal particles in the resulting boson-fermion system. This provides a microscopic framework for the phenomenological supersymmetric models based on the U(6/2Omega) dynamical superalgebras. Attention is paid to the mapping of single-fermion creation and annihilation operators whose detailed form cannot be determined on the phenomenological level. We derive the general expansion of the single-fermion images that result ...
In terms of group theory Å the language of symmetries, the concept of spontaneous symmetry breaking ...
The present series of papers deals with various realizations of the dynamical group script L signscr...
As suggested by Vanagas, we choose the microscopic collective states for a system of A nucleons to b...
Based on a generalized reduction scheme for boson representations of symplectic algebras of the type...
In terms of group theory-the language of symmetries, the concept of spontaneous symmetry breaking is...
In this paper we describe a new family of algebras which in the case of n = 2 reduces to the Fermion...
AbstractWe discuss a procedure to transfer the description of a fermion system from a subspace of th...
Both non-Hermitian Dyson and Hermitian Holstein-Primakoff representations of the Sp(2d,R) algebra ar...
Phenomenological models have long been employed by nuclear physicists to explain systematic trends i...
Transfer reactions constitute a stringent test for nuclear supersymmetry, a theory that s...
We discuss two related models of generalized pairing in nuclei. One is a fermion model based on the ...
A linearization scheme is proposed for the general Hamiltonian of an interacting fermion system, con...
The algebraic Interacting Vector Boson Model (IVBM) is extended by exploiting three new subgroup cha...
Microscopic models, which embody the simplicity and significance of a dynamical symmetry approach to...
AbstractThe mapping of the single fermion creation operator (ci†) onto the Interacting Boson–Fermion...
In terms of group theory Å the language of symmetries, the concept of spontaneous symmetry breaking ...
The present series of papers deals with various realizations of the dynamical group script L signscr...
As suggested by Vanagas, we choose the microscopic collective states for a system of A nucleons to b...
Based on a generalized reduction scheme for boson representations of symplectic algebras of the type...
In terms of group theory-the language of symmetries, the concept of spontaneous symmetry breaking is...
In this paper we describe a new family of algebras which in the case of n = 2 reduces to the Fermion...
AbstractWe discuss a procedure to transfer the description of a fermion system from a subspace of th...
Both non-Hermitian Dyson and Hermitian Holstein-Primakoff representations of the Sp(2d,R) algebra ar...
Phenomenological models have long been employed by nuclear physicists to explain systematic trends i...
Transfer reactions constitute a stringent test for nuclear supersymmetry, a theory that s...
We discuss two related models of generalized pairing in nuclei. One is a fermion model based on the ...
A linearization scheme is proposed for the general Hamiltonian of an interacting fermion system, con...
The algebraic Interacting Vector Boson Model (IVBM) is extended by exploiting three new subgroup cha...
Microscopic models, which embody the simplicity and significance of a dynamical symmetry approach to...
AbstractThe mapping of the single fermion creation operator (ci†) onto the Interacting Boson–Fermion...
In terms of group theory Å the language of symmetries, the concept of spontaneous symmetry breaking ...
The present series of papers deals with various realizations of the dynamical group script L signscr...
As suggested by Vanagas, we choose the microscopic collective states for a system of A nucleons to b...