利用量子点自旋态的声子激光提案。

Proposal for a phonon laser utilizing quantum-dot spin states.

机构信息

Department of Physics, University at Buffalo, SUNY, Buffalo, New York 14260-1500.

出版信息

Phys Rev Lett. 2013 Nov 1;111(18):186601. doi: 10.1103/PhysRevLett.111.186601. Epub 2013 Oct 29.

DOI:10.1103/PhysRevLett.111.186601

Abstract

We propose a nanoscale realization of a phonon laser utilizing phonon-assisted spin flips in quantum dots to amplify sound. Owing to a long spin relaxation time, the device can be operated in a strong pumping regime, in which the population inversion is close to its maximal value allowed under Fermi statistics. In this regime, the threshold for stimulated emission is unaffected by spontaneous spin flips. Considering a nanowire with quantum dots defined along its length, we show that a further improvement arises from confining the phonons to one dimension, and thus reducing the number of phonon modes available for spontaneous emission. Our work calls for the development of nanowire-based, high-finesse phonon resonators.

摘要

我们提出了一种利用量子点中的声子辅助自旋翻转来放大声音的声子激光的纳米级实现方案。由于自旋弛豫时间较长，该器件可以在强泵浦状态下工作，此时费米统计允许的最大反转粒子数接近反转粒子数。在这种状态下，受激发射的阈值不受自发自旋翻转的影响。考虑到沿其长度定义量子点的纳米线，我们表明，通过将声子限制在一维，可以进一步提高声子的限制，从而减少自发发射可用的声子模式的数量。我们的工作呼吁开发基于纳米线的高精细度声子谐振器。

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利用量子点自旋态的声子激光提案。

Proposal for a phonon laser utilizing quantum-dot spin states.

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