Generation of 9 MeV γ-rays by all-laser-driven Compton scattering with second-harmonic laser light

Cheng Liu; Grigory Golovin; Shouyuan Chen; Jun Zhang; Baozhen Zhao; Daniel Haden; Sudeep Banerjee; Jack Silano; Hugon Karwowski; Donald Umstadter

doi:10.1364/OL.39.004132

Generation of 9 MeV γ-rays by all-laser-driven Compton scattering with second-harmonic laser light

Cheng Liu, Grigory Golovin, Shouyuan Chen, Jun Zhang, Baozhen Zhao, Daniel Haden, Sudeep Banerjee, Jack Silano, Hugon Karwowski, Donald Umstadter

Research output: Contribution to journal › Article › peer-review

61 Scopus citations

Abstract

Gamma-ray photons with energy <9 MeV were produced when second-harmonic-generated laser light (3 eV) inverse-Compton-scattered from a counterpropagating relativistic (∼450 MeV) laser-wakefield-accelerated electron beam. Two laser pulses from the same laser system were used: one to accelerate electrons and one to scatter. Since the two pulses play very different roles in the γ-ray generation process, and thus have different requirements, a novel laser system was developed. It separately and independently optimized the optical properties of the two pulses. This approach also mitigated the deleterious effects on beam focusing that generally accompany nonlinear optics at high peak-power levels.

Original language	English (US)
Pages (from-to)	4132-4135
Number of pages	4
Journal	Optics Letters
Volume	39
Issue number	14
DOIs	https://doi.org/10.1364/OL.39.004132
State	Published - Jul 15 2014
Externally published	Yes

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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title = "Generation of 9 MeV γ-rays by all-laser-driven Compton scattering with second-harmonic laser light",

abstract = "Gamma-ray photons with energy <9 MeV were produced when second-harmonic-generated laser light (3 eV) inverse-Compton-scattered from a counterpropagating relativistic (∼450 MeV) laser-wakefield-accelerated electron beam. Two laser pulses from the same laser system were used: one to accelerate electrons and one to scatter. Since the two pulses play very different roles in the γ-ray generation process, and thus have different requirements, a novel laser system was developed. It separately and independently optimized the optical properties of the two pulses. This approach also mitigated the deleterious effects on beam focusing that generally accompany nonlinear optics at high peak-power levels.",

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T1 - Generation of 9 MeV γ-rays by all-laser-driven Compton scattering with second-harmonic laser light

AU - Liu, Cheng

AU - Golovin, Grigory

AU - Chen, Shouyuan

AU - Zhang, Jun

AU - Zhao, Baozhen

AU - Haden, Daniel

AU - Banerjee, Sudeep

AU - Silano, Jack

AU - Karwowski, Hugon

AU - Umstadter, Donald

PY - 2014/7/15

Y1 - 2014/7/15

N2 - Gamma-ray photons with energy <9 MeV were produced when second-harmonic-generated laser light (3 eV) inverse-Compton-scattered from a counterpropagating relativistic (∼450 MeV) laser-wakefield-accelerated electron beam. Two laser pulses from the same laser system were used: one to accelerate electrons and one to scatter. Since the two pulses play very different roles in the γ-ray generation process, and thus have different requirements, a novel laser system was developed. It separately and independently optimized the optical properties of the two pulses. This approach also mitigated the deleterious effects on beam focusing that generally accompany nonlinear optics at high peak-power levels.

AB - Gamma-ray photons with energy <9 MeV were produced when second-harmonic-generated laser light (3 eV) inverse-Compton-scattered from a counterpropagating relativistic (∼450 MeV) laser-wakefield-accelerated electron beam. Two laser pulses from the same laser system were used: one to accelerate electrons and one to scatter. Since the two pulses play very different roles in the γ-ray generation process, and thus have different requirements, a novel laser system was developed. It separately and independently optimized the optical properties of the two pulses. This approach also mitigated the deleterious effects on beam focusing that generally accompany nonlinear optics at high peak-power levels.

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Generation of 9 MeV γ-rays by all-laser-driven Compton scattering with second-harmonic laser light

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