Deep learning of ultrafast pulses with a multimode fiber | Zendy

Wen Xiong | Zendy; Brandon Redding | Zendy; Shai Gertler | Zendy; Yaron Bromberg | Zendy; Hemant D. Tagare | Zendy; Hui Cao | Zendy

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Deep learning of ultrafast pulses with a multimode fiber

Author(s) -

Wen Xiong,

Brandon Redding,

Shai Gertler,

Yaron Bromberg,

Hemant D. Tagare,

Hui Cao

Publication year - 2020

Publication title -

apl photonics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.094

H-Index - 34

ISSN - 2378-0967

DOI - 10.1063/5.0007037

Subject(s) - multi mode optical fiber , ultrashort pulse , optics , speckle pattern , pulse (music) , fiber , femtosecond pulse shaping , materials science , optical fiber , computer science , physics , laser , detector , composite material

Characterizing ultrashort optical pulses has always been a critical but difficult task, which has a broad range of applications. We propose and demonstrate a self-referenced method of characterizing ultrafast pulses with a multimode fiber. The linear and nonlinear speckle patterns formed at the distal end of a multimode fiber are used to recover the spectral amplitude and phase of an unknown pulse. We deploy a deep learning algorithm for phase recovery. The diversity of spatial and spectral modes in a multimode fiber removes any ambiguity in the sign of the recovered spectral phase. Our technique allows for single-shot pulse characterization in a simple experimental setup. This work reveals the potential of multimode fibers as a versatile and multi-functional platform for optical sensing.

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