Compact fiber-delivered Cr:forsterite laser for nonlinear light microscopy

Ming-Che Chan; Tzu Ming Liu; Shih Peng Tai; Chi Kuang Sun

doi:10.1117/1.2060586

Compact fiber-delivered Cr:forsterite laser for nonlinear light microscopy

Ming-Che Chan, Tzu Ming Liu, Shih Peng Tai, Chi Kuang Sun^*

^*Corresponding author for this work

Institute of Photonic System

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

20 Scopus citations

Abstract

We demonstrate a compact and self-starting fiber-delivered femtosecond Cr:forsterite laser for nonlinear light microscopy. A semiconductor saturable absorber mirror provides the self-starting mechanism and maintains long-term stability in the laser cavity. Four double-chirped mirrors are employed to reduce the size of the cavity and to compensate for group velocity dispersion. Delivered by a large-mode-area photonic crystal fiber, the generated laser pulses can be compressed down to be with a nearly transform-limited pulse width with 2.2-nJ fiber-output pulse energy. Based on this fiberdelivered Cr:forsterite laser source, a compact and reliable twophoton fluorescence microscopy system can thus be realized.

Original language	English
Article number	054006
Journal	Journal of Biomedical Optics
Volume	10
Issue number	5
DOIs	https://doi.org/10.1117/1.2060586
State	Published - Sep 2005

Keywords

Double-chirped mirrors
Large-modearea photonic crystal fibers
Mode-locked Cr:forsterite lasers
Nonlinear light microscopy

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10.1117/1.2060586

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title = "Compact fiber-delivered Cr:forsterite laser for nonlinear light microscopy",

abstract = "We demonstrate a compact and self-starting fiber-delivered femtosecond Cr:forsterite laser for nonlinear light microscopy. A semiconductor saturable absorber mirror provides the self-starting mechanism and maintains long-term stability in the laser cavity. Four double-chirped mirrors are employed to reduce the size of the cavity and to compensate for group velocity dispersion. Delivered by a large-mode-area photonic crystal fiber, the generated laser pulses can be compressed down to be with a nearly transform-limited pulse width with 2.2-nJ fiber-output pulse energy. Based on this fiberdelivered Cr:forsterite laser source, a compact and reliable twophoton fluorescence microscopy system can thus be realized.",

keywords = "Double-chirped mirrors, Large-modearea photonic crystal fibers, Mode-locked Cr:forsterite lasers, Nonlinear light microscopy",

author = "Ming-Che Chan and Liu, {Tzu Ming} and Tai, {Shih Peng} and Sun, {Chi Kuang}",

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AU - Chan, Ming-Che

AU - Liu, Tzu Ming

AU - Tai, Shih Peng

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AB - We demonstrate a compact and self-starting fiber-delivered femtosecond Cr:forsterite laser for nonlinear light microscopy. A semiconductor saturable absorber mirror provides the self-starting mechanism and maintains long-term stability in the laser cavity. Four double-chirped mirrors are employed to reduce the size of the cavity and to compensate for group velocity dispersion. Delivered by a large-mode-area photonic crystal fiber, the generated laser pulses can be compressed down to be with a nearly transform-limited pulse width with 2.2-nJ fiber-output pulse energy. Based on this fiberdelivered Cr:forsterite laser source, a compact and reliable twophoton fluorescence microscopy system can thus be realized.

KW - Double-chirped mirrors

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Compact fiber-delivered Cr:forsterite laser for nonlinear light microscopy

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