# Quantum states of a neutral massive fermion with an anomalous magnetic   moment in an external electric field

**Authors:** V.R. Khalilov

arXiv: 1704.01779 · 2017-08-02

## TL;DR

This paper investigates the quantum behavior of a neutral fermion with an anomalous magnetic moment in an Aharonov-Casher electric field, analyzing self-adjoint Hamiltonians, energy spectra, and scattering properties.

## Contribution

It classifies all self-adjoint Hamiltonians for the system and connects their spectra with physical boundary conditions and regularization methods.

## Key findings

- All possible self-adjoint Hamiltonians are constructed.
- Energy levels of bound states are identified as poles of the scattering amplitude.
- The scattering amplitude and cross section depend on the fermion's spin.

## Abstract

The planar non-relativistic quantum dynamics of a neutral massive fermion with an anomalous magnetic moment (AMM) in the presence of the electric field of infinitely long and thin thread with a charge density distributed uniformly along it (an Aharonov--Casher field) is examined. The relevant Hamiltonian is singular and requires additional specification of a one-parameter self-adjoint extension, which can be given in terms of physically acceptable (self-adjoint) boundary conditions. We find all possible self-adjoint Hamiltonians with an Aharonov--Casher field (ACF) by constructing the corresponding Hilbert space of square-integrable functions, including the $r = 0$ region, for all their Hamiltoniahs. We determine the most relevant physical quantities, such as energy spectrum and wave functions and discuss their correspondence with those obtained by the physical regularization procedure. We show that energy levels of bound states are simple poles of the scattering amplitude. Expressions for the scattering amplitude and cross section depending on the fermion spin are reexamined.

## Full text

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## References

22 references — full list in the complete paper: https://tomesphere.com/paper/1704.01779/full.md

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Source: https://tomesphere.com/paper/1704.01779