Magnetic Flux Effects in Statistical Magnetism of Electron Gas

TL;DR

This paper explores how fractional magnetic flux influences the statistical magnetism of electron gases, revealing potential enhancements in diamagnetism and magnetic oscillations due to quantum flux effects.

Contribution

It demonstrates that fractional magnetic flux can significantly amplify diamagnetism and magnetic oscillations in electron gases, providing new insights into quantum flux effects in statistical magnetism.

Findings

Diamagnetism can be greatly increased by fractional magnetic flux.

Magnetic oscillation amplitude is amplified by quantum flux effects.

Flux influences various types of statistical magnetism in electron gases.

Abstract

The effects of magnetic flux in statistical magnetisms, including Pauli paramagnetism, Landau diamagnetism, and De Hass-van Alphen oscillation, are discussed. It is shown that the diamagnetism could be much increased by the fractional magnetic flux, and the amplitude of the magnetic oscillation of De Hass-van Alphen can be amplified by the quantum effect of the flux.