High-Energy Carrier-Envelope Phase-Stable Optical Waveforms Compressible to &lt;1 fs Using Induced-Phase Modulation in an Argon-Filled Hollow-Core Fiber

Shaobo Fang; Shaobo Fang; Hong Ye; Hong Ye; Giovanni Cirmi; Giovanni Cirmi; Shih-Hsuan Chia; Shih-Hsuan Chia; Sergio Carbajo; Sergio Carbajo; Oliver D. Mücke; Oliver D. Mücke; Franz X. Kärtner; Franz X. Kärtner; Franz X. Kärtner; Franz X. Kärtner

doi:10.1364/HILAS.2014.HW1C.2

Research in Optical Sciences
OSA Technical Digest (online) (Optica Publishing Group, 2014),
paper HW1C.2
•https://doi.org/10.1364/HILAS.2014.HW1C.2

High-Energy Carrier-Envelope Phase-Stable Optical Waveforms Compressible to <1 fs Using Induced-Phase Modulation in an Argon-Filled Hollow-Core Fiber

Shaobo Fang, Hong Ye, Giovanni Cirmi, Shih-Hsuan Chia, Sergio Carbajo, Oliver D. Mücke, and Franz X. Kärtner

High Intensity Lasers and High Field Phenomena 2014

Messe Berlin, Berlin Germany
18–20 March 2014
ISBN: 978-1-55752-995-4

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Carrier-Envelope Phase Stabilization (HW1C)

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S. Fang, H. Ye, G. Cirmi, S. Chia, S. Carbajo, O. D. Mücke, and F. X. Kärtner, "High-Energy Carrier-Envelope Phase-Stable Optical Waveforms Compressible to <1 fs Using Induced-Phase Modulation in an Argon-Filled Hollow-Core Fiber," in Research in Optical Sciences , OSA Technical Digest (online) (Optica Publishing Group, 2014), paper HW1C.2.

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Abstract

We demonstrate phase-stable, ~0.4-mJ optical waveforms based on induced-phase modulation for generating sub-fs optical pulses. Using custom-designed double-chirped mirrors and a spatial light modulator, such optical waveforms will become a versatile tool for strong-field attoscience.

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