Aharonov-Bohm oscillation of magnetization in two-dimensional corbino   disk

Katsumi Itahashi; Keita Kishigi; Yasumasa Hasegawa

arXiv:1408.6008·cond-mat.mes-hall·August 27, 2014

Aharonov-Bohm oscillation of magnetization in two-dimensional corbino disk

Katsumi Itahashi, Keita Kishigi, Yasumasa Hasegawa

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Abstract

We numerically calculate the magnetization by applying the magnetic field ( $B$ ) perpendicular to two-dimensional corbino disk system without electron spin. We obtain that the period of the Aharonov-Bohm (AB) oscillations of magnetization $[M (B)]$ exhibit $ϕ_{0}$ , $ϕ_{0} /2$ and almost $ϕ_{0} /3$ as a function of $ϕ$ , depending on numbers of electrons ( $N$ ), where $ϕ_{0} = \frac{h c}{e}$ is a unit flux and $ϕ$ is the magnetic flux through the hollow of the disk. The oscillations of $M (B)$ are classified into five patterns at $1 \leq N \leq 27$ investigated in this study. These are expected to be observed in the two-dimensional semiconductor corbino disk with the hollow radius of about 10 nm and small electron numbers at the high magnetic field.

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TopicsQuantum and electron transport phenomena · Advanced Chemical Physics Studies · Topological Materials and Phenomena