Recent demonstration of record high gradients in dielectric laser accelerating structures | Zendy

Kent Wootton | Zendy; David Cesar | Zendy; B. Cowan | Zendy; Adi Hanuka | Zendy; Igor Makasyuk | Zendy; Jared Maxson | Zendy; E. A. Peralta | Zendy; K. Soong | Zendy; Ziran Wu | Zendy; Robert L. Byer | Zendy; P. Musumeci | Zendy; R. J. England | Zendy

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Recent demonstration of record high gradients in dielectric laser accelerating structures

Author(s) -

Kent Wootton,

David Cesar,

B. Cowan,

Adi Hanuka,

Igor Makasyuk,

Jared Maxson,

E. A. Peralta,

K. Soong,

Ziran Wu,

Robert L. Byer,

P. Musumeci,

R. J. England

Publication year - 2017

Publication title -

aip conference proceedings

Language(s) - English

Resource type - Conference proceedings

eISSN - 1551-7616

pISSN - 0094-243X

DOI - 10.1063/1.4975873

Subject(s) - dielectric , femtosecond , laser , acceleration , linear particle accelerator , work (physics) , materials science , optics , physics , optoelectronics , beam (structure) , classical mechanics , thermodynamics

Recently, record high accelerating gradients have been demonstrated in dielectric laser accelerator structures. However, the temporal profile and phase of compressed femtosecond laser pulses often deviates from theoretical distributions. In this work, we apply frequency-resolved optical gating to interpret the peak accelerating gradient in experiments with relativistic beams in dielectric laser accelerators, highlight recent experimental results and outline the scope for future increases in accelerating gradient in dielectric laser accelerator structures.

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