Laser-driven plasma-cathode electron injector

D. Umstadter, S. Y. Chen, E. Dodd, J. K. Kim, A. Maksimchuk, R. Wagner

Research output: Contribution to conferencePaperpeer-review

Abstract

We discuss the first experimental demonstration of electron acceleration by a laser wakefield over distances greater than a Rayleigh range (or the distance a laser normally propagates in vacuum). A self-modulated laser wakefield plasma wave is shown to have a field gradient that exceeds that of an RF linac by four orders of magnitude (E≥200 GV/m) and accelerates electrons with over 1-nC of charge per bunch in a beam with space-charge-limited emittance (1 mm-mrad). Above a laser power threshold, a plasma channel, created by the intense ultrashort laser pulse (I to approximately 4×1018 W/cm2, λ = 1 μm, τ = 400 fs), was found to increase the laser propagation distance, decrease the electron beam divergence, and increase the electron energy. The plasma wave, directly measured with coherent Thomson scattering is shown to damp - due to beam loading - in a duration of 1.5 ps or approximately 100 plasma periods. We also discuss a new concept for controlled laser injection of electrons in order to create monoenergetic femtosecond electron bunches. As in the above experiments it uses the plasma itself as the cathode, but also an additional laser pulse as a trigger. By use of a 2-D particle-in-cell numerical code, it is shown that this technique will produce 1-femtosecond duration electron bunches with energy spread at the percent level.

Original languageEnglish
Pages2657-2661
Number of pages5
StatePublished - 1998
Externally publishedYes
EventProceedings of the 1997 17th Particle Accelerator Conference, PAC-97 - Vancouver, BC, CAN
Duration: May 12 1997May 16 1997

Conference

ConferenceProceedings of the 1997 17th Particle Accelerator Conference, PAC-97
CityVancouver, BC, CAN
Period05/12/9705/16/97

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