由于强电子-核相互作用，量子点在零外加磁场下的亚秒级自旋弛豫时间。

Subsecond spin relaxation times in quantum dots at zero applied magnetic field due to a strong electron-nuclear interaction.

作者信息

Oulton R, Greilich A, Verbin S Yu, Cherbunin R V, Auer T, Yakovlev D R, Bayer M, Merkulov I A, Stavarache V, Reuter D, Wieck A D

机构信息

Experimentelle Physik II, Universität Dortmund, D-44221 Dortmund, Germany.

出版信息

Phys Rev Lett. 2007 Mar 9;98(10):107401. doi: 10.1103/PhysRevLett.98.107401. Epub 2007 Mar 7.

DOI:10.1103/PhysRevLett.98.107401

PMID:17358564

Abstract

A key to ultralong electron spin memory in quantum dots (QDs) at zero magnetic field is the polarization of the nuclei, such that the electron spin is stabilized along the average nuclear magnetic field. We demonstrate that spin-polarized electrons in n-doped (In,Ga)As/GaAs QDs align the nuclear field via the hyperfine interaction. A feedback onto the electrons occurs, leading to stabilization of their polarization due to formation of a nuclear spin polaron [I. A. Merkulov, Phys. Solid State 40, 930 (1998)]. Spin depolarization of both systems is consequently greatly reduced, and spin memory of the coupled electron-nuclear spin system is retained over 0.3 sec at temperature of 2 K.

摘要

零磁场下量子点（QD）中超长电子自旋记忆的关键在于原子核的极化，使得电子自旋沿平均核磁场稳定。我们证明，n型掺杂（In，Ga）As/GaAs量子点中的自旋极化电子通过超精细相互作用使核场取向。这会对电子产生反馈，由于形成核自旋极化子[I. A. Merkulov，《物理固态》40，930（1998）]，导致其极化得以稳定。因此，两个系统的自旋去极化都大大降低，并且在2K温度下，耦合的电子 - 核自旋系统的自旋记忆可保留超过0.3秒。

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由于强电子-核相互作用，量子点在零外加磁场下的亚秒级自旋弛豫时间。

Subsecond spin relaxation times in quantum dots at zero applied magnetic field due to a strong electron-nuclear interaction.

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