Photon deceleration in plasma wakes generates single-cycle relativistic tunable infrared pulses

Availability of relativistically intense, single-cycle, tunable infrared sources will open up new areas of relativistic nonlinear optics of plasmas, impulse IR spectroscopy and pump-probe experiments in the molecular fingerprint region. However, generation of such pulses is still a challenge by curr...

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Published in:Nature communications 2020-06, Vol.11 (1), p.2787-2787, Article 2787
Main Authors: Nie, Zan, Pai, Chih-Hao, Zhang, Jie, Ning, Xiaonan, Hua, Jianfei, He, Yunxiao, Wu, Yipeng, Su, Qianqian, Liu, Shuang, Ma, Yue, Cheng, Zhi, Lu, Wei, Chu, Hsu-Hsin, Wang, Jyhpyng, Zhang, Chaojie, Mori, Warren B., Joshi, Chan
Format: Article
Language:English
Subjects:
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140/125
639/766/1960/1135
639/766/1960/1137
70 PLASMA PHYSICS AND FUSION TECHNOLOGY
Chemical fingerprinting
Deceleration
Density gradients
Humanities and Social Sciences
Infrared sources (astronomy)
Infrared spectroscopy
Laser-produced plasmas
Lasers
multidisciplinary
Nonlinear optics
Optics
Photons
Plasma
Plasma density
Plasma-based accelerators
Plasmas
Refractivity
Relativistic effects
Science
Science (multidisciplinary)
Time dependence
Wavelength
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Summary:Availability of relativistically intense, single-cycle, tunable infrared sources will open up new areas of relativistic nonlinear optics of plasmas, impulse IR spectroscopy and pump-probe experiments in the molecular fingerprint region. However, generation of such pulses is still a challenge by current methods. Recently, it has been proposed that time dependent refractive index associated with laser-produced nonlinear wakes in a suitably designed plasma density structure rapidly frequency down-converts photons. The longest wavelength photons slip backwards relative to the evolving laser pulse to form a single-cycle pulse within the nearly evacuated wake cavity. This process is called photon deceleration. Here, we demonstrate this scheme for generating high-power (~100 GW), near single-cycle, wavelength tunable (3–20 µm), infrared pulses using an 810 nm drive laser by tuning the density profile of the plasma. We also demonstrate that these pulses can be used to in-situ probe the transient and nonlinear wakes themselves. Plasma can act as strong nonlinear refractive index medium that can be exploited to downshift the frequency of a laser pulse. Here, the authors show the generation of single-cycle tunable infrared pulses using strong density gradients associated with laser-produced wakes in plasmas.
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-020-16541-w