Author
Listed:
- Houkun Liang
(Massachusetts Institute of Technology (MIT)
Singapore Institute of Manufacturing Technology)
- Peter Krogen
(Massachusetts Institute of Technology (MIT))
- Zhou Wang
(The Ohio State University)
- Hyunwook Park
(The Ohio State University)
- Tobias Kroh
(Massachusetts Institute of Technology (MIT)
University of Hamburg)
- Kevin Zawilski
(BAE System, MER15-1813)
- Peter Schunemann
(BAE System, MER15-1813)
- Jeffrey Moses
(Massachusetts Institute of Technology (MIT)
Cornell University)
- Louis F. DiMauro
(The Ohio State University)
- Franz X. Kärtner
(Massachusetts Institute of Technology (MIT)
University of Hamburg
The Hamburg Center for Ultrafast Imaging)
- Kyung-Han Hong
(Massachusetts Institute of Technology (MIT))
Abstract
High-energy phase-stable sub-cycle mid-infrared pulses can provide unique opportunities to explore phase-sensitive strong-field light–matter interactions in atoms, molecules and solids. At the mid-infrared wavelength, the Keldysh parameter could be much smaller than unity even at relatively modest laser intensities, enabling the study of the strong-field sub-cycle electron dynamics in solids without damage. Here we report a high-energy sub-cycle pulse synthesiser based on a mid-infrared optical parametric amplifier and its application to high-harmonic generation in solids. The signal and idler combined spectrum spans from 2.5 to 9.0 µm. We coherently synthesise the passively carrier-envelope phase-stable signal and idler pulses to generate 33 μJ, 0.88-cycle, multi-gigawatt pulses centred at ~4.2 μm, which is further energy scalable. The mid-infrared sub-cycle pulse is used for driving high-harmonic generation in thin silicon samples, producing harmonics up to ~19th order with a continuous spectral coverage due to the isolated emission by the sub-cycle driver.
Suggested Citation
Houkun Liang & Peter Krogen & Zhou Wang & Hyunwook Park & Tobias Kroh & Kevin Zawilski & Peter Schunemann & Jeffrey Moses & Louis F. DiMauro & Franz X. Kärtner & Kyung-Han Hong, 2017.
"High-energy mid-infrared sub-cycle pulse synthesis from a parametric amplifier,"
Nature Communications, Nature, vol. 8(1), pages 1-9, December.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-00193-4
DOI: 10.1038/s41467-017-00193-4
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