Localized Magnetic States in 2D Semiconductors

Aleksandr Rodin; Antonio Helio Castro Neto

arXiv:1802.06938·cond-mat.mes-hall·June 27, 2018

Localized Magnetic States in 2D Semiconductors

Aleksandr Rodin, Antonio Helio Castro Neto

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TL;DR

This paper investigates how localized impurities induce magnetic states in 2D semiconductors, analyzing energy configurations, the influence of the band gap, and temperature effects on magnetization stability.

Contribution

It provides a detailed analysis of magnetic state formation in 2D semiconductors with impurities, considering energy configurations and thermal effects, which is a novel exploration in this context.

Findings

01

Magnetic states depend on energy configurations and the band gap.

02

Finite temperature can both create and destroy magnetization.

03

Interplay between gap and bands influences magnetization stability.

Abstract

We study the formation of magnetic states in localized impurities embedded into two-dimensional semiconductors. By considering various energy configurations, we illustrate the interplay of the gap and the bands in the system magnetization. Finally, we consider finite-temperature effects to show how increasing $T$ can lead to formation and destruction of magnetization.

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