Single-cavity bi-color laser enabled by optical anti-parity-time symmetry

YAO DUAN; XINGWANG ZHANG; YIMIN DING; XINGJIE NI

doi:10.1364/PRJ.417296

Single-cavity bi-color laser enabled by optical anti-parity-time symmetry

YAO DUAN, XINGWANG ZHANG, YIMIN DING, XINGJIE NI

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

6 Scopus citations

Abstract

The exploration of quantum inspired symmetries in optical systems has spawned promising physics and provided fertile ground for developing devices exhibiting exotic functionalities. Founded on the anti-parity-time (APT) symmetry that is enabled by both spatial and temporal interplay between gain and loss, we demonstrate theoretically and numerically bi-color lasing in a single micro-ring resonator with spatiotemporal modulation along its azimuthal direction. In contrast to conventional multi-mode lasers that have mixed-frequency output, our laser exhibits stable, demultiplexed, tunable bi-color emission at different output ports. Our APT-symmetry-based laser may point out a new route for realizing compact on-chip coherent multi-color light sources.

Original language	English (US)
Pages (from-to)	1280-1288
Number of pages	9
Journal	Photonics Research
Volume	9
Issue number	7 July
DOIs	https://doi.org/10.1364/PRJ.417296
State	Published - Jul 1 2021

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Atomic and Molecular Physics, and Optics

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10.1364/PRJ.417296

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title = "Single-cavity bi-color laser enabled by optical anti-parity-time symmetry",

abstract = "The exploration of quantum inspired symmetries in optical systems has spawned promising physics and provided fertile ground for developing devices exhibiting exotic functionalities. Founded on the anti-parity-time (APT) symmetry that is enabled by both spatial and temporal interplay between gain and loss, we demonstrate theoretically and numerically bi-color lasing in a single micro-ring resonator with spatiotemporal modulation along its azimuthal direction. In contrast to conventional multi-mode lasers that have mixed-frequency output, our laser exhibits stable, demultiplexed, tunable bi-color emission at different output ports. Our APT-symmetry-based laser may point out a new route for realizing compact on-chip coherent multi-color light sources.",

author = "YAO DUAN and XINGWANG ZHANG and YIMIN DING and XINGJIE NI",

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doi = "10.1364/PRJ.417296",

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AU - DUAN, YAO

AU - ZHANG, XINGWANG

AU - DING, YIMIN

AU - NI, XINGJIE

PY - 2021/7/1

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N2 - The exploration of quantum inspired symmetries in optical systems has spawned promising physics and provided fertile ground for developing devices exhibiting exotic functionalities. Founded on the anti-parity-time (APT) symmetry that is enabled by both spatial and temporal interplay between gain and loss, we demonstrate theoretically and numerically bi-color lasing in a single micro-ring resonator with spatiotemporal modulation along its azimuthal direction. In contrast to conventional multi-mode lasers that have mixed-frequency output, our laser exhibits stable, demultiplexed, tunable bi-color emission at different output ports. Our APT-symmetry-based laser may point out a new route for realizing compact on-chip coherent multi-color light sources.

AB - The exploration of quantum inspired symmetries in optical systems has spawned promising physics and provided fertile ground for developing devices exhibiting exotic functionalities. Founded on the anti-parity-time (APT) symmetry that is enabled by both spatial and temporal interplay between gain and loss, we demonstrate theoretically and numerically bi-color lasing in a single micro-ring resonator with spatiotemporal modulation along its azimuthal direction. In contrast to conventional multi-mode lasers that have mixed-frequency output, our laser exhibits stable, demultiplexed, tunable bi-color emission at different output ports. Our APT-symmetry-based laser may point out a new route for realizing compact on-chip coherent multi-color light sources.

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JO - Photonics Research

JF - Photonics Research

IS - 7 July

ER -

Single-cavity bi-color laser enabled by optical anti-parity-time symmetry

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All Science Journal Classification (ASJC) codes

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