Prompt Analysis and Design for Passively Mode-Locked Solid-State Lasers with Semiconductor Saturable Absorbers

Pin Wen Cheng; Yu Hsin Hsu; Hsing Chih Liang; Kai Feng Huang; Yung Fu Chen

doi:10.3390/photonics11010008

Prompt Analysis and Design for Passively Mode-Locked Solid-State Lasers with Semiconductor Saturable Absorbers

Pin Wen Cheng, Yu Hsin Hsu, Hsing Chih Liang, Kai Feng Huang, Yung Fu Chen^*

^*Corresponding author for this work

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

Abstract

The critical pump power for achieving passively continuous-wave mode-locking in a solid-state laser is analytically derived from the spatially dependent rate equations and the criterion for the intracavity pulse energy. A prompt way is proposed to straightforwardly design the cavity for passively mode-locked solid-state lasers. Complete experiments are performed to demonstrate the proposed cavity design and, simultaneously, to verify the theoretical model for the critical pump powers. It is interestingly observed that even though a larger modulation depth causes a higher critical pump power, it can generate a shorter pulse width in return.

Original language	English
Article number	8
Journal	Photonics
Volume	11
Issue number	1
DOIs	https://doi.org/10.3390/photonics11010008
State	Published - Jan 2024

Keywords

critical pump power
diode-pumped
passive mode-locking
solid-state laser

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10.3390/photonics11010008

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title = "Prompt Analysis and Design for Passively Mode-Locked Solid-State Lasers with Semiconductor Saturable Absorbers",

abstract = "The critical pump power for achieving passively continuous-wave mode-locking in a solid-state laser is analytically derived from the spatially dependent rate equations and the criterion for the intracavity pulse energy. A prompt way is proposed to straightforwardly design the cavity for passively mode-locked solid-state lasers. Complete experiments are performed to demonstrate the proposed cavity design and, simultaneously, to verify the theoretical model for the critical pump powers. It is interestingly observed that even though a larger modulation depth causes a higher critical pump power, it can generate a shorter pulse width in return.",

keywords = "critical pump power, diode-pumped, passive mode-locking, solid-state laser",

author = "Cheng, {Pin Wen} and Hsu, {Yu Hsin} and Liang, {Hsing Chih} and Huang, {Kai Feng} and Chen, {Yung Fu}",

note = "Publisher Copyright: {\textcopyright} 2023 by the authors.",

year = "2024",

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doi = "10.3390/photonics11010008",

language = "English",

volume = "11",

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AU - Cheng, Pin Wen

AU - Hsu, Yu Hsin

AU - Liang, Hsing Chih

AU - Huang, Kai Feng

AU - Chen, Yung Fu

PY - 2024/1

Y1 - 2024/1

N2 - The critical pump power for achieving passively continuous-wave mode-locking in a solid-state laser is analytically derived from the spatially dependent rate equations and the criterion for the intracavity pulse energy. A prompt way is proposed to straightforwardly design the cavity for passively mode-locked solid-state lasers. Complete experiments are performed to demonstrate the proposed cavity design and, simultaneously, to verify the theoretical model for the critical pump powers. It is interestingly observed that even though a larger modulation depth causes a higher critical pump power, it can generate a shorter pulse width in return.

AB - The critical pump power for achieving passively continuous-wave mode-locking in a solid-state laser is analytically derived from the spatially dependent rate equations and the criterion for the intracavity pulse energy. A prompt way is proposed to straightforwardly design the cavity for passively mode-locked solid-state lasers. Complete experiments are performed to demonstrate the proposed cavity design and, simultaneously, to verify the theoretical model for the critical pump powers. It is interestingly observed that even though a larger modulation depth causes a higher critical pump power, it can generate a shorter pulse width in return.

KW - critical pump power

KW - diode-pumped

KW - passive mode-locking

KW - solid-state laser

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DO - 10.3390/photonics11010008

M3 - Article

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SN - 2304-6732

VL - 11

JO - Photonics

JF - Photonics

IS - 1

M1 - 8

ER -

Prompt Analysis and Design for Passively Mode-Locked Solid-State Lasers with Semiconductor Saturable Absorbers

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Keywords

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