原子级薄MoTe中位点控制的电信波长单光子发射器。

Site-controlled telecom-wavelength single-photon emitters in atomically-thin MoTe.

作者信息

Zhao Huan, Pettes Michael T, Zheng Yu, Htoon Han

机构信息

Center for Integrated Nanotechnologies, Materials Physics and Applications Division, Los Alamos National Laboratory, Los Alamos, New Mexico, 87545, USA.

出版信息

Nat Commun. 2021 Nov 19;12(1):6753. doi: 10.1038/s41467-021-27033-w.

DOI:10.1038/s41467-021-27033-w

PMID:34799576

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8604946/

Abstract

Quantum emitters (QEs) in two-dimensional transition metal dichalcogenides (2D TMDCs) have advanced to the forefront of quantum communication and transduction research. To date, QEs capable of operating in O-C telecommunication bands have not been demonstrated in TMDCs. Here we report site-controlled creation of telecom QEs emitting over the 1080 to 1550 nm telecommunication wavelength range via coupling of 2D molybdenum ditelluride (MoTe) to strain inducing nano-pillar arrays. Hanbury Brown and Twiss experiments conducted at 10 K reveal clear photon antibunching with 90% single-photon purity. The photon antibunching can be observed up to liquid nitrogen temperature (77 K). Polarization analysis further reveals that while some QEs display cross-linearly polarized doublets with ~1 meV splitting resulting from the strain induced anisotropic exchange interaction, valley degeneracy is preserved in other QEs. Valley Zeeman splitting as well as restoring of valley symmetry in cross-polarized doublets are observed under 8 T magnetic field.

摘要

二维过渡金属二硫属化物（2D TMDCs）中的量子发射器（QEs）已跃居量子通信和转导研究的前沿。迄今为止，在TMDCs中尚未证明能够在O-C电信波段工作的QEs。在此，我们报告了通过将二维碲化钼（MoTe）与应变诱导纳米柱阵列耦合，实现了在1080至1550纳米电信波长范围内发射的电信QEs的位点控制创建。在10K下进行的Hanbury Brown和Twiss实验揭示了具有90%单光子纯度的清晰光子反聚束现象。在液氮温度（77K）下也能观察到光子反聚束现象。偏振分析进一步表明，虽然一些QEs显示出由应变诱导的各向异性交换相互作用导致的具有约1毫电子伏分裂的交叉线性偏振双峰，但在其他QEs中谷简并性得以保留。在8T磁场下观察到了谷塞曼分裂以及交叉偏振双峰中谷对称性的恢复。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3fdf/8604946/2ad58210c4c0/41467_2021_27033_Fig1_HTML.jpg

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原子级薄MoTe中位点控制的电信波长单光子发射器。

Site-controlled telecom-wavelength single-photon emitters in atomically-thin MoTe.

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