Please use this identifier to cite or link to this item: http://dlib.scu.ac.ir/handle/Hannan/138176
Title: High Degree Picosecond Pulse Compression in Chalcogenide-Silicon Slot Waveguide Taper
Authors: Chao Mei;Feng Li;Jinhui Yuan;Zhe Kang;Xianting Zhang;Kuiru Wang;Xinzhu Sang;Qiang Wu;Binbin Yan;Xian Zhou;Liang Wang;Chongxiu Yu;P. K. A. Wai
subject: 2-soliton breather|As2S3-based slot waveguide taper|fundamental soliton|self-similar pulse compression
Year: 2016
Publisher: IEEE
Abstract: In this paper, we propose and design a chalcogenide (As<sub>2</sub>S<sub>3</sub>)-based slot waveguide taper with exponentially decreasing dispersion profile to realize high-degree pulse compression of low-power chirped solitons. Based on the waveguide taper designed, pulse compression of fundamental solitons, and chirped 2-soliton breather are both investigated numerically. With self-similar pulse compression scheme, a 1 ps input pulse is compressed to 81.5 fs in 6 cm propagation. By using 2-soliton breather pulses, a 1 ps chirped pulse is compressed to 80.3 fs in just 2.54 cm. This is the first demonstration of the feasibility of high-degree nonlinear pulse compression in As<sub>2</sub>S<sub>3</sub>-based slot waveguide taper.
URI: http://localhost/handle/Hannan/138176
ISSN: 0733-8724
1558-2213
volume: 34
issue: 16
More Information: 3843
3852
Appears in Collections:2016

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Title: High Degree Picosecond Pulse Compression in Chalcogenide-Silicon Slot Waveguide Taper
Authors: Chao Mei;Feng Li;Jinhui Yuan;Zhe Kang;Xianting Zhang;Kuiru Wang;Xinzhu Sang;Qiang Wu;Binbin Yan;Xian Zhou;Liang Wang;Chongxiu Yu;P. K. A. Wai
subject: 2-soliton breather|As2S3-based slot waveguide taper|fundamental soliton|self-similar pulse compression
Year: 2016
Publisher: IEEE
Abstract: In this paper, we propose and design a chalcogenide (As<sub>2</sub>S<sub>3</sub>)-based slot waveguide taper with exponentially decreasing dispersion profile to realize high-degree pulse compression of low-power chirped solitons. Based on the waveguide taper designed, pulse compression of fundamental solitons, and chirped 2-soliton breather are both investigated numerically. With self-similar pulse compression scheme, a 1 ps input pulse is compressed to 81.5 fs in 6 cm propagation. By using 2-soliton breather pulses, a 1 ps chirped pulse is compressed to 80.3 fs in just 2.54 cm. This is the first demonstration of the feasibility of high-degree nonlinear pulse compression in As<sub>2</sub>S<sub>3</sub>-based slot waveguide taper.
URI: http://localhost/handle/Hannan/138176
ISSN: 0733-8724
1558-2213
volume: 34
issue: 16
More Information: 3843
3852
Appears in Collections:2016

Files in This Item:
File Description SizeFormat 
7493628.pdf1.11 MBAdobe PDFThumbnail
Preview File
Title: High Degree Picosecond Pulse Compression in Chalcogenide-Silicon Slot Waveguide Taper
Authors: Chao Mei;Feng Li;Jinhui Yuan;Zhe Kang;Xianting Zhang;Kuiru Wang;Xinzhu Sang;Qiang Wu;Binbin Yan;Xian Zhou;Liang Wang;Chongxiu Yu;P. K. A. Wai
subject: 2-soliton breather|As2S3-based slot waveguide taper|fundamental soliton|self-similar pulse compression
Year: 2016
Publisher: IEEE
Abstract: In this paper, we propose and design a chalcogenide (As<sub>2</sub>S<sub>3</sub>)-based slot waveguide taper with exponentially decreasing dispersion profile to realize high-degree pulse compression of low-power chirped solitons. Based on the waveguide taper designed, pulse compression of fundamental solitons, and chirped 2-soliton breather are both investigated numerically. With self-similar pulse compression scheme, a 1 ps input pulse is compressed to 81.5 fs in 6 cm propagation. By using 2-soliton breather pulses, a 1 ps chirped pulse is compressed to 80.3 fs in just 2.54 cm. This is the first demonstration of the feasibility of high-degree nonlinear pulse compression in As<sub>2</sub>S<sub>3</sub>-based slot waveguide taper.
URI: http://localhost/handle/Hannan/138176
ISSN: 0733-8724
1558-2213
volume: 34
issue: 16
More Information: 3843
3852
Appears in Collections:2016

Files in This Item:
File Description SizeFormat 
7493628.pdf1.11 MBAdobe PDFThumbnail
Preview File