原子级薄半导体中谷的非线性全光相干产生与读出

Nonlinear All-Optical Coherent Generation and Read-Out of Valleys in Atomically Thin Semiconductors.

作者信息

Herrmann Paul, Klimmer Sebastian, Lettau Thomas, Monfared Mohammad, Staude Isabelle, Paradisanos Ioannis, Peschel Ulf, Soavi Giancarlo

机构信息

Institute of Solid State Physics, Friedrich Schiller University Jena, Helmholtzweg 5, 07743, Jena, Germany.

ARC Centre of Excellence for Transformative Meta-Optical Systems, Department of Electronic Materials Engineering, Research School of Physics, The Australian National University, Canberra, ACT 2601, Australia.

出版信息

Small. 2023 Sep;19(37):e2301126. doi: 10.1002/smll.202301126. Epub 2023 May 25.

DOI:10.1002/smll.202301126

PMID:37226688

Abstract

With conventional electronics reaching performance and size boundaries, all-optical processes have emerged as ideal building blocks for high speed and low power consumption devices. A promising approach in this direction is provided by valleytronics in atomically thin semiconductors, where light-matter interaction allows to write, store, and read binary information into the two energetically degenerate but non-equivalent valleys. Here, nonlinear valleytronics in monolayer WSe is investigated and show that an individual ultrashort pulse with a photon energy tuned to half of the optical band-gap can be used to simultaneously excite (by coherent optical Stark shift) and detect (by a rotation in the polarization of the emitted second harmonic) the valley population.

摘要

随着传统电子学接近性能和尺寸极限，全光过程已成为高速、低功耗器件的理想构建模块。在这一方向上，一种很有前景的方法是由原子级薄半导体中的谷电子学提供的，其中光与物质的相互作用允许将二进制信息写入、存储和读取到两个能量简并但不等价的谷中。在此，研究了单层WSe₂中的非线性谷电子学，并表明一个光子能量调谐到光学带隙一半的单个超短脉冲可用于同时激发（通过相干光学斯塔克位移）和检测（通过发射二次谐波的偏振旋转）谷布居。

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原子级薄半导体中谷的非线性全光相干产生与读出

Nonlinear All-Optical Coherent Generation and Read-Out of Valleys in Atomically Thin Semiconductors.

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