Tunable Femtosecond Laser from 965 to 1025 nm in Fiber Optical Parametric Oscillator

Kangwen Yang; Jieshi Jiang; Zhengru Guo; Qiang Hao; Heping Zeng

doi:10.1109/LPT.2018.2805888

Tunable Femtosecond Laser from 965 to 1025 nm in Fiber Optical Parametric Oscillator

Kangwen Yang, Jieshi Jiang, Zhengru Guo, Qiang Hao, Heping Zeng

Institute for Advanced Study in Precision Spectroscopy

University of Shanghai for Science and Technology

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

14 Scopus citations

Abstract

We presented a fiber optical parametric oscillator generating tunable femtosecond pulses based on four-wave mixing. By using a photonic crystal fiber as the parametric gain and a single mode fiber to select the oscillating wavelength via dispersion filtering, output pulses with a pulse duration of 350 fs, and spectral bandwidth of 5.8 nm were obtained. The wavelength of the output pulses could be tuned from 965 to 1025 nm by adjusting the dispersion filtering. This setup provides a simple and flexible light source for biomedical applications and tunable infrared pulse generation through nonlinear frequency conversion.

Original language	English
Pages (from-to)	607-610
Number of pages	4
Journal	IEEE Photonics Technology Letters
Volume	30
Issue number	7
DOIs	https://doi.org/10.1109/LPT.2018.2805888
State	Published - 1 Apr 2018

Keywords

Nonlinear optics
four-wave mixing
nonlinear microscopy

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title = "Tunable Femtosecond Laser from 965 to 1025 nm in Fiber Optical Parametric Oscillator",

abstract = "We presented a fiber optical parametric oscillator generating tunable femtosecond pulses based on four-wave mixing. By using a photonic crystal fiber as the parametric gain and a single mode fiber to select the oscillating wavelength via dispersion filtering, output pulses with a pulse duration of 350 fs, and spectral bandwidth of 5.8 nm were obtained. The wavelength of the output pulses could be tuned from 965 to 1025 nm by adjusting the dispersion filtering. This setup provides a simple and flexible light source for biomedical applications and tunable infrared pulse generation through nonlinear frequency conversion.",

keywords = "Nonlinear optics, four-wave mixing, nonlinear microscopy",

author = "Kangwen Yang and Jieshi Jiang and Zhengru Guo and Qiang Hao and Heping Zeng",

note = "Publisher Copyright: {\textcopyright} 1989-2012 IEEE.",

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doi = "10.1109/LPT.2018.2805888",

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T1 - Tunable Femtosecond Laser from 965 to 1025 nm in Fiber Optical Parametric Oscillator

AU - Yang, Kangwen

AU - Jiang, Jieshi

AU - Guo, Zhengru

AU - Hao, Qiang

AU - Zeng, Heping

PY - 2018/4/1

Y1 - 2018/4/1

N2 - We presented a fiber optical parametric oscillator generating tunable femtosecond pulses based on four-wave mixing. By using a photonic crystal fiber as the parametric gain and a single mode fiber to select the oscillating wavelength via dispersion filtering, output pulses with a pulse duration of 350 fs, and spectral bandwidth of 5.8 nm were obtained. The wavelength of the output pulses could be tuned from 965 to 1025 nm by adjusting the dispersion filtering. This setup provides a simple and flexible light source for biomedical applications and tunable infrared pulse generation through nonlinear frequency conversion.

AB - We presented a fiber optical parametric oscillator generating tunable femtosecond pulses based on four-wave mixing. By using a photonic crystal fiber as the parametric gain and a single mode fiber to select the oscillating wavelength via dispersion filtering, output pulses with a pulse duration of 350 fs, and spectral bandwidth of 5.8 nm were obtained. The wavelength of the output pulses could be tuned from 965 to 1025 nm by adjusting the dispersion filtering. This setup provides a simple and flexible light source for biomedical applications and tunable infrared pulse generation through nonlinear frequency conversion.

KW - Nonlinear optics

KW - four-wave mixing

KW - nonlinear microscopy

UR - https://www.scopus.com/pages/publications/85042087835

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DO - 10.1109/LPT.2018.2805888

M3 - 文章

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JO - IEEE Photonics Technology Letters

JF - IEEE Photonics Technology Letters

IS - 7

ER -

Tunable Femtosecond Laser from 965 to 1025 nm in Fiber Optical Parametric Oscillator

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