Spin-valley Rashba monolayer laser

Kexiu Rong; Xiaoyang Duan; Bo Wang; Dror Reichenberg; Assael Cohen; Chieh li Liu; Pranab K. Mohapatra; Avinash Patsha; Vladi Gorovoy; Subhrajit Mukherjee; Vladimir Kleiner; Ariel Ismach; Elad Koren; Erez Hasman

doi:10.1038/s41563-023-01603-3

Spin-valley Rashba monolayer laser

Kexiu Rong, Xiaoyang Duan, Bo Wang, Dror Reichenberg, Assael Cohen, Chieh li Liu, Pranab K. Mohapatra, Avinash Patsha, Vladi Gorovoy, Subhrajit Mukherjee, Vladimir Kleiner, Ariel Ismach, Elad Koren, Erez Hasman

Research output: Contribution to journal › Article › peer-review

Abstract

Direct-bandgap transition metal dichalcogenide monolayers are appealing candidates to construct atomic-scale spin-optical light sources owing to their valley-contrasting optical selection rules. Here we report on a spin-optical monolayer laser by incorporating a WS₂ monolayer into a heterostructure microcavity supporting high-Q photonic spin-valley resonances. Inspired by the creation of valley pseudo-spins in monolayers, the spin-valley modes are generated from a photonic Rashba-type spin splitting of a bound state in the continuum, which gives rise to opposite spin-polarized ±K valleys due to emergent photonic spin–orbit interaction under inversion symmetry breaking. The Rashba monolayer laser shows intrinsic spin polarizations, high spatial and temporal coherence, and inherent symmetry-enabled robustness features, enabling valley coherence in the WS₂ monolayer upon arbitrary pump polarizations at room temperature. Our monolayer-integrated spin-valley microcavities open avenues for further classical and non-classical coherent spin-optical light sources exploring both electron and photon spins.

Original language	English
Pages (from-to)	1085-1093
Number of pages	9
Journal	Nature Materials
Volume	22
Issue number	9
DOIs	https://doi.org/10.1038/s41563-023-01603-3
State	Published - Sep 2023

ASJC Scopus subject areas

General Chemistry
General Materials Science
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

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10.1038/s41563-023-01603-3

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title = "Spin-valley Rashba monolayer laser",

abstract = "Direct-bandgap transition metal dichalcogenide monolayers are appealing candidates to construct atomic-scale spin-optical light sources owing to their valley-contrasting optical selection rules. Here we report on a spin-optical monolayer laser by incorporating a WS2 monolayer into a heterostructure microcavity supporting high-Q photonic spin-valley resonances. Inspired by the creation of valley pseudo-spins in monolayers, the spin-valley modes are generated from a photonic Rashba-type spin splitting of a bound state in the continuum, which gives rise to opposite spin-polarized ±K valleys due to emergent photonic spin–orbit interaction under inversion symmetry breaking. The Rashba monolayer laser shows intrinsic spin polarizations, high spatial and temporal coherence, and inherent symmetry-enabled robustness features, enabling valley coherence in the WS2 monolayer upon arbitrary pump polarizations at room temperature. Our monolayer-integrated spin-valley microcavities open avenues for further classical and non-classical coherent spin-optical light sources exploring both electron and photon spins.",

author = "Kexiu Rong and Xiaoyang Duan and Bo Wang and Dror Reichenberg and Assael Cohen and Liu, {Chieh li} and Mohapatra, {Pranab K.} and Avinash Patsha and Vladi Gorovoy and Subhrajit Mukherjee and Vladimir Kleiner and Ariel Ismach and Elad Koren and Erez Hasman",

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doi = "10.1038/s41563-023-01603-3",

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AU - Rong, Kexiu

AU - Duan, Xiaoyang

AU - Wang, Bo

AU - Reichenberg, Dror

AU - Cohen, Assael

AU - Liu, Chieh li

AU - Mohapatra, Pranab K.

AU - Patsha, Avinash

AU - Gorovoy, Vladi

AU - Mukherjee, Subhrajit

AU - Kleiner, Vladimir

AU - Ismach, Ariel

AU - Koren, Elad

AU - Hasman, Erez

PY - 2023/9

Y1 - 2023/9

N2 - Direct-bandgap transition metal dichalcogenide monolayers are appealing candidates to construct atomic-scale spin-optical light sources owing to their valley-contrasting optical selection rules. Here we report on a spin-optical monolayer laser by incorporating a WS2 monolayer into a heterostructure microcavity supporting high-Q photonic spin-valley resonances. Inspired by the creation of valley pseudo-spins in monolayers, the spin-valley modes are generated from a photonic Rashba-type spin splitting of a bound state in the continuum, which gives rise to opposite spin-polarized ±K valleys due to emergent photonic spin–orbit interaction under inversion symmetry breaking. The Rashba monolayer laser shows intrinsic spin polarizations, high spatial and temporal coherence, and inherent symmetry-enabled robustness features, enabling valley coherence in the WS2 monolayer upon arbitrary pump polarizations at room temperature. Our monolayer-integrated spin-valley microcavities open avenues for further classical and non-classical coherent spin-optical light sources exploring both electron and photon spins.

AB - Direct-bandgap transition metal dichalcogenide monolayers are appealing candidates to construct atomic-scale spin-optical light sources owing to their valley-contrasting optical selection rules. Here we report on a spin-optical monolayer laser by incorporating a WS2 monolayer into a heterostructure microcavity supporting high-Q photonic spin-valley resonances. Inspired by the creation of valley pseudo-spins in monolayers, the spin-valley modes are generated from a photonic Rashba-type spin splitting of a bound state in the continuum, which gives rise to opposite spin-polarized ±K valleys due to emergent photonic spin–orbit interaction under inversion symmetry breaking. The Rashba monolayer laser shows intrinsic spin polarizations, high spatial and temporal coherence, and inherent symmetry-enabled robustness features, enabling valley coherence in the WS2 monolayer upon arbitrary pump polarizations at room temperature. Our monolayer-integrated spin-valley microcavities open avenues for further classical and non-classical coherent spin-optical light sources exploring both electron and photon spins.

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JO - Nature Materials

JF - Nature Materials

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Spin-valley Rashba monolayer laser

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