Power amplification for 1.6 µm high-order vortex modes

Lan Hai; Zhichao Zhang; Lang Li; Kaixin Wang; Xu Zhang; Yang Yu; Chunqing Gao; Shiyao Fu

doi:10.1364/OE.504086

Power amplification for 1.6 µm high-order vortex modes

Lan Hai, Zhichao Zhang, Lang Li, Kaixin Wang, Xu Zhang, Yang Yu, Chunqing Gao, Shiyao Fu^*

^*Corresponding author for this work

School of Optics and Photonics

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

1 Citation (Scopus)

Abstract

1.6 µm high-order vortex modes carrying orbital angular momentums (OAMs) play significant roles in long-range Doppler lidars and other remote sensing. Amplification of 1.6 µm high-order vortex modes is an important way to provide high-power laser sources for such lidars and also enable the weak echo signal to be amplified so that it can be analyzed. In this work, we propose a four-pass Er:YAG vortex master-oscillator-power-amplification (MOPA) system to amplify 1.6 µm high-order vortex modes. In the proof-of-concept experiments, 1.6 µm single OAM mode (l = 3) is amplified successfully and the gain ranging from 1.88 to 2.36 is achieved. Multiplexed OAM mode (l=±3) is also amplified with favorable results. This work addresses the issue as the low gain of Er:YAG vortex MOPA, which provides a feasible path for 1.6 µm high-order vortex modes amplification.

Original language	English
Pages (from-to)	35305-35312
Number of pages	8
Journal	Optics Express
Volume	31
Issue number	21
DOIs	https://doi.org/10.1364/OE.504086
Publication status	Published - 9 Oct 2023

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title = "Power amplification for 1.6 µm high-order vortex modes",

abstract = "1.6 µm high-order vortex modes carrying orbital angular momentums (OAMs) play significant roles in long-range Doppler lidars and other remote sensing. Amplification of 1.6 µm high-order vortex modes is an important way to provide high-power laser sources for such lidars and also enable the weak echo signal to be amplified so that it can be analyzed. In this work, we propose a four-pass Er:YAG vortex master-oscillator-power-amplification (MOPA) system to amplify 1.6 µm high-order vortex modes. In the proof-of-concept experiments, 1.6 µm single OAM mode (l = 3) is amplified successfully and the gain ranging from 1.88 to 2.36 is achieved. Multiplexed OAM mode (l=±3) is also amplified with favorable results. This work addresses the issue as the low gain of Er:YAG vortex MOPA, which provides a feasible path for 1.6 µm high-order vortex modes amplification.",

author = "Lan Hai and Zhichao Zhang and Lang Li and Kaixin Wang and Xu Zhang and Yang Yu and Chunqing Gao and Shiyao Fu",

note = "Publisher Copyright: {\textcopyright} 2023 Optica Publishing Group under the terms of the Optica Open Access Publishing Agreement.",

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T1 - Power amplification for 1.6 µm high-order vortex modes

AU - Hai, Lan

AU - Zhang, Zhichao

AU - Li, Lang

AU - Wang, Kaixin

AU - Zhang, Xu

AU - Yu, Yang

AU - Gao, Chunqing

AU - Fu, Shiyao

PY - 2023/10/9

Y1 - 2023/10/9

N2 - 1.6 µm high-order vortex modes carrying orbital angular momentums (OAMs) play significant roles in long-range Doppler lidars and other remote sensing. Amplification of 1.6 µm high-order vortex modes is an important way to provide high-power laser sources for such lidars and also enable the weak echo signal to be amplified so that it can be analyzed. In this work, we propose a four-pass Er:YAG vortex master-oscillator-power-amplification (MOPA) system to amplify 1.6 µm high-order vortex modes. In the proof-of-concept experiments, 1.6 µm single OAM mode (l = 3) is amplified successfully and the gain ranging from 1.88 to 2.36 is achieved. Multiplexed OAM mode (l=±3) is also amplified with favorable results. This work addresses the issue as the low gain of Er:YAG vortex MOPA, which provides a feasible path for 1.6 µm high-order vortex modes amplification.

AB - 1.6 µm high-order vortex modes carrying orbital angular momentums (OAMs) play significant roles in long-range Doppler lidars and other remote sensing. Amplification of 1.6 µm high-order vortex modes is an important way to provide high-power laser sources for such lidars and also enable the weak echo signal to be amplified so that it can be analyzed. In this work, we propose a four-pass Er:YAG vortex master-oscillator-power-amplification (MOPA) system to amplify 1.6 µm high-order vortex modes. In the proof-of-concept experiments, 1.6 µm single OAM mode (l = 3) is amplified successfully and the gain ranging from 1.88 to 2.36 is achieved. Multiplexed OAM mode (l=±3) is also amplified with favorable results. This work addresses the issue as the low gain of Er:YAG vortex MOPA, which provides a feasible path for 1.6 µm high-order vortex modes amplification.

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DO - 10.1364/OE.504086

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SN - 1094-4087

VL - 31

SP - 35305

EP - 35312

JO - Optics Express

JF - Optics Express

IS - 21

ER -

Power amplification for 1.6 µm high-order vortex modes

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