Generating square picosecond pulse with photonic crystal fiber amplification system

Jia Wang; Sijia Wang; Chenglin Gu; Bowen Liu; Dongqing Pang; Minglie Hu; Qingyue Wang

Generating square picosecond pulse with photonic crystal fiber amplification system

Jia Wang^*
, Sijia Wang
, Chenglin Gu
, Bowen Liu
, Dongqing Pang
, Minglie Hu
, Qingyue Wang

^*Corresponding author for this work

Tianjin University

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

1 Scopus citations

Abstract

The modulation characteristics of the liquid space light modulator was discussed, and its application in the large mode area photonic crystal fiber ultrafast laser amplification system was studied. The results indicated the real time control on pulse shape was realized. The influence of pump power on the spectral and temporal shape of strongly linearly chirped square pulse after amplification was discussed. By using a spectral pulse pre-shaping of the seed pulse before the power amplifier, the square pulse with 15-ps pulse duration, 13-nm bandwidth at 1031-nm central wavelength was obtained. The results also demonstrate the significant role of liquid space light modulator in compensating pulse distortions induced by the asymmetric gain, by a pre-optimization of the seed pulse spectrum before amplification.

Original language	English
Pages (from-to)	2023-2026
Number of pages	4
Journal	Infrared and Laser Engineering
Volume	41
Issue number	8
State	Published - Aug 2012
Externally published	Yes

Keywords

Amplitude modulation
PCF amplification
Pulse shaping
Square pulses

Cite this

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title = "Generating square picosecond pulse with photonic crystal fiber amplification system",

abstract = "The modulation characteristics of the liquid space light modulator was discussed, and its application in the large mode area photonic crystal fiber ultrafast laser amplification system was studied. The results indicated the real time control on pulse shape was realized. The influence of pump power on the spectral and temporal shape of strongly linearly chirped square pulse after amplification was discussed. By using a spectral pulse pre-shaping of the seed pulse before the power amplifier, the square pulse with 15-ps pulse duration, 13-nm bandwidth at 1031-nm central wavelength was obtained. The results also demonstrate the significant role of liquid space light modulator in compensating pulse distortions induced by the asymmetric gain, by a pre-optimization of the seed pulse spectrum before amplification.",

keywords = "Amplitude modulation, PCF amplification, Pulse shaping, Square pulses",

author = "Jia Wang and Sijia Wang and Chenglin Gu and Bowen Liu and Dongqing Pang and Minglie Hu and Qingyue Wang",

year = "2012",

month = aug,

language = "英语",

volume = "41",

pages = "2023--2026",

journal = "Infrared and Laser Engineering",

issn = "1007-2276",

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number = "8",

}

TY - JOUR

T1 - Generating square picosecond pulse with photonic crystal fiber amplification system

AU - Wang, Jia

AU - Wang, Sijia

AU - Gu, Chenglin

AU - Liu, Bowen

AU - Pang, Dongqing

AU - Hu, Minglie

AU - Wang, Qingyue

PY - 2012/8

Y1 - 2012/8

N2 - The modulation characteristics of the liquid space light modulator was discussed, and its application in the large mode area photonic crystal fiber ultrafast laser amplification system was studied. The results indicated the real time control on pulse shape was realized. The influence of pump power on the spectral and temporal shape of strongly linearly chirped square pulse after amplification was discussed. By using a spectral pulse pre-shaping of the seed pulse before the power amplifier, the square pulse with 15-ps pulse duration, 13-nm bandwidth at 1031-nm central wavelength was obtained. The results also demonstrate the significant role of liquid space light modulator in compensating pulse distortions induced by the asymmetric gain, by a pre-optimization of the seed pulse spectrum before amplification.

AB - The modulation characteristics of the liquid space light modulator was discussed, and its application in the large mode area photonic crystal fiber ultrafast laser amplification system was studied. The results indicated the real time control on pulse shape was realized. The influence of pump power on the spectral and temporal shape of strongly linearly chirped square pulse after amplification was discussed. By using a spectral pulse pre-shaping of the seed pulse before the power amplifier, the square pulse with 15-ps pulse duration, 13-nm bandwidth at 1031-nm central wavelength was obtained. The results also demonstrate the significant role of liquid space light modulator in compensating pulse distortions induced by the asymmetric gain, by a pre-optimization of the seed pulse spectrum before amplification.

KW - Amplitude modulation

KW - PCF amplification

KW - Pulse shaping

KW - Square pulses

UR - https://www.scopus.com/pages/publications/84867841513

M3 - 文章

AN - SCOPUS:84867841513

SN - 1007-2276

VL - 41

SP - 2023

EP - 2026

JO - Infrared and Laser Engineering

JF - Infrared and Laser Engineering

IS - 8

ER -

Generating square picosecond pulse with photonic crystal fiber amplification system

Abstract

Keywords

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