Saved in:
Bibliographic Details
Main Authors: Kampu, Techapon, De Vincenzo, Salvatore
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.17225
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866913168914120704
author Kampu, Techapon
De Vincenzo, Salvatore
author_facet Kampu, Techapon
De Vincenzo, Salvatore
contents Real solutions of the 1D Klein-Fock-Gordon (KFG) equation automatically cancel out the usual two-vector current density; consequently, the respective continuity equation is trivially satisfied, and a globally conserved quantity cannot be obtained. Additionally, distinguishing between impermeable and permeable boundary conditions (BCs) at a given point is not possible. We address these first-quantized conflicts by using the simplest nontrivial local observables, i.e., an energy density and an energy current density, which allows us to characterize a strictly neutral 1D KFG particle, i.e., a 1D KFG-Majorana (KFGM) particle, when it is confined to an interval and when it is restricted, e.g., in an interval with transparent walls. All the BCs for this system are extracted from the pseudo self-adjointness of the Feshbach-Villars (FV) Hamiltonian plus two Majorana conditions. We show that these energy densities are components of an unusual energy-momentum tensor and can satisfy a continuity equation, leading to a conserved quantity for all available BCs. Moreover, the energy current density can characterize all the BCs as either impermeable or permeable. In contrast, the commonly used energy current density -- a component of the usual energy-momentum tensor -- cannot characterize all the BCs. Additionally, this quantity and its respective energy density -- another component of the usual energy-momentum tensor -- may not lead to a conserved quantity. We also obtain the BCs for which the abovementioned densities and those commonly used are equally satisfactory. In fact, this occurs only for four impermeable BCs and a one-parameter set of permeable BCs. Our results highlight the important role played by the BCs when they are imposed on a system in which particles occupy a finite region.
format Preprint
id arxiv_https___arxiv_org_abs_2507_17225
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Nontrivial local observables and impermeable and permeable boundary conditions for 1D KFGM particles
Kampu, Techapon
De Vincenzo, Salvatore
Quantum Physics
Real solutions of the 1D Klein-Fock-Gordon (KFG) equation automatically cancel out the usual two-vector current density; consequently, the respective continuity equation is trivially satisfied, and a globally conserved quantity cannot be obtained. Additionally, distinguishing between impermeable and permeable boundary conditions (BCs) at a given point is not possible. We address these first-quantized conflicts by using the simplest nontrivial local observables, i.e., an energy density and an energy current density, which allows us to characterize a strictly neutral 1D KFG particle, i.e., a 1D KFG-Majorana (KFGM) particle, when it is confined to an interval and when it is restricted, e.g., in an interval with transparent walls. All the BCs for this system are extracted from the pseudo self-adjointness of the Feshbach-Villars (FV) Hamiltonian plus two Majorana conditions. We show that these energy densities are components of an unusual energy-momentum tensor and can satisfy a continuity equation, leading to a conserved quantity for all available BCs. Moreover, the energy current density can characterize all the BCs as either impermeable or permeable. In contrast, the commonly used energy current density -- a component of the usual energy-momentum tensor -- cannot characterize all the BCs. Additionally, this quantity and its respective energy density -- another component of the usual energy-momentum tensor -- may not lead to a conserved quantity. We also obtain the BCs for which the abovementioned densities and those commonly used are equally satisfactory. In fact, this occurs only for four impermeable BCs and a one-parameter set of permeable BCs. Our results highlight the important role played by the BCs when they are imposed on a system in which particles occupy a finite region.
title Nontrivial local observables and impermeable and permeable boundary conditions for 1D KFGM particles
topic Quantum Physics
url https://arxiv.org/abs/2507.17225