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14 pages, 969 KiB

Open AccessArticle

Exotic Particle Dynamics Using Novel Hermitian Spin Matrices

by Timothy Ganesan

Axioms 2023, 12(11), 1052; https://doi.org/10.3390/axioms12111052 - 15 Nov 2023

Cited by 2 | Viewed by 1576

In this work, an analogue to the Pauli spin matrices is presented and investigated. The proposed Hermitian spin matrices exhibit four symmetries for spin-1/n particles. The spin projection operators are derived, and the electrodynamics for hypothetical spin-1/2 fermions are explored using the proposed spin matrices. The fermionic quantum Heisenberg model is constructed using the proposed spin matrices, and comparative studies against simulation results using the Pauli spin matrices are conducted. Further analysis of the key findings as well as discussions on extending the proposed spin matrix framework to describe hypothetical bosonic systems (spin-1 particles) are provided. Full article

(This article belongs to the Special Issue Differential Equations and Dynamical Systems—Theory and Applications)

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20 pages, 3617 KiB

Open AccessArticle

Operatorial Formulation of a Model of Spatially Distributed Competing Populations

by Guglielmo Inferrera and Francesco Oliveri

Dynamics 2022, 2(4), 414-433; https://doi.org/10.3390/dynamics2040024 - 21 Nov 2022

Cited by 1 | Viewed by 1927

Abstract

This paper deals with the application of the mathematical apparatus of quantum mechanics for the formulation of an operatorial model of a couple of populations spatially distributed over a one-dimensional region. The two populations interact with a competitive mechanism and are able to diffuse over the region. A nonlocal competition effect is also included. In more detail, we consider a one-dimensional region divided in N cells where the actors, represented by annihilation, creation, and a number fermionic operators, interact. The dynamics is governed by a self-adjoint and time-independent Hamiltonian operator describing the various interactions. The results of some numerical simulations are presented and discussed. The recently introduced variant of the standard Heisenberg approach, named

(H, ρ)

-induced dynamics, is also used in order to take into account some changes in time of the attitudes of the two populations, and obtain more realistic dynamical outcomes. Full article

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28 pages, 580 KiB

Open AccessArticle

Hilbert Space Structure of the Low Energy Sector of U(N) Quantum Hall Ferromagnets and Their Classical Limit

by Manuel Calixto, Alberto Mayorgas and Julio Guerrero

Symmetry 2022, 14(5), 872; https://doi.org/10.3390/sym14050872 - 24 Apr 2022

Cited by 2 | Viewed by 2109

Abstract

Using the Lieb–Mattis ordering theorem of electronic energy levels, we identify the Hilbert space of the low energy sector of

U (N)

quantum Hall/Heisenberg ferromagnets at filling factor M for L Landau/lattice sites with the carrier space of irreducible representations of [...] Read more.

Using the Lieb–Mattis ordering theorem of electronic energy levels, we identify the Hilbert space of the low energy sector of

U (N)

quantum Hall/Heisenberg ferromagnets at filling factor M for L Landau/lattice sites with the carrier space of irreducible representations of

U (N)

described by rectangular Young tableaux of M rows and L columns, and associated with Grassmannian phase spaces

U (N) / U (M) \times U (N - M)

. We embed this N-component fermion mixture in Fock space through a Schwinger–Jordan (boson and fermion) representation of

U (N)

-spin operators. We provide different realizations of basis vectors using Young diagrams, Gelfand–Tsetlin patterns and Fock states (for an electron/flux occupation number in the fermionic/bosonic representation).

U (N)

-spin operator matrix elements in the Gelfand–Tsetlin basis are explicitly given. Coherent state excitations above the ground state are computed and labeled by complex

(N - M) \times M

matrix points Z on the Grassmannian phase space. They adopt the form of a

U (N)

displaced/rotated highest-weight vector, or a multinomial Bose–Einstein condensate in the flux occupation number representation. Replacing

U (N)

-spin operators by their expectation values in a Grassmannian coherent state allows for a semi-classical treatment of the low energy (long wavelength)

U (N)

-spin-wave coherent excitations (skyrmions) of

U (N)

quantum Hall ferromagnets in terms of Grasmannian nonlinear sigma models. Full article

(This article belongs to the Section Physics)

17 pages, 709 KiB

Open AccessArticle

Structural Statistical Quantifiers and Thermal Features of Quantum Systems

by Flavia Pennini, Angelo Plastino, Angel Ricardo Plastino and Alberto Hernando

Entropy 2021, 23(1), 19; https://doi.org/10.3390/e23010019 - 25 Dec 2020

Cited by 3 | Viewed by 2614

Abstract

This paper deals primarily with relatively novel thermal quantifiers called disequilibrium and statistical complexity, whose role is growing in different disciplines of physics and other sciences. These quantifiers are called L. Ruiz, Mancini, and Calvet (LMC) quantifiers, following the initials of the three [...] Read more.

Δ x Δ p

(at temperature T); (2) A nuclear physics fermion model. Having achieved such purposes, we determine to what an extent our bridges can be extended to both the semi-classical and classical realms. In addition, we find a strict bound relating a special LMC structural quantifier to quantum uncertainties. Full article

(This article belongs to the Special Issue Entropy-based Methods in In and Out of Equilibrium Systems)

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