Inhomogeneous Magnetic Response in Anyon Fluid at High Temperature

TL;DR

This paper investigates how an external magnetic field affects a high-temperature charged anyon fluid, revealing inhomogeneous magnetic penetration and a periodic charge distribution that varies with temperature.

Contribution

It introduces a novel analysis of inhomogeneous magnetic response and charge distribution in a high-temperature anyon fluid under a magnetic field.

Findings

Magnetic field penetrates inhomogeneously with temperature-dependent wavelength.

Charge distribution becomes spatially periodic at high temperatures.

Inhomogeneous magnetic response is characterized at $T \,\gg\, \omega_c$.

Abstract

The charged anyon fluid in the presence of an externally applied constant and homogeneous magnetic field is investigated at temperatures larger than the energy gap ($T\gg \omega_{c}$). It is shown that the applied magnetic field inhomogeneously penetrates the sample with a spatial periodicity depending on a wavelength that decreases with temperature. The distribution of charges in the ($T\gg \omega_{c}$)-phase acquires a periodic spatial arrangement.