Optical phase effects in electron wakefield acceleration using few-cycle laser pulses

A. F. Lifschitz; V. Malka

doi:10.1088/1367-2630/14/5/053045

Optical phase effects in electron wakefield acceleration using few-cycle laser pulses

A. F. Lifschitz, V. Malka

Department of Physics of Complex Systems

Weizmann Institute of Science

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

Abstract

Simulations performed with the particle-in-cell code Calder Circ show the feasibility of injection and acceleration of electrons in the laser wakefield created by few-femtosecond laser pulses with moderate energy at the few mJ level. A detailed study of the effect of the carrier-envelope phase of the pulse on the injection is presented. It is shown that using ionization injection with nitrogen as the target gas, the control of the optical phase allows production of high-quality and shot-to-shot stable electron beams. The electron bunches obtained have a relative energy spread of a few per cent, a bunch duration in the sub-fs domain, a divergence close to 10 mrad and a peak energy in the 10 MeV range, and could be produced in the near future at kHz repetition rates.

Original language	English
Article number	053045
Number of pages	9
Journal	New Journal of Physics
Volume	14
DOIs	https://doi.org/10.1088/1367-2630/14/5/053045
State	Published - 31 May 2012

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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title = "Optical phase effects in electron wakefield acceleration using few-cycle laser pulses",

abstract = "Simulations performed with the particle-in-cell code Calder Circ show the feasibility of injection and acceleration of electrons in the laser wakefield created by few-femtosecond laser pulses with moderate energy at the few mJ level. A detailed study of the effect of the carrier-envelope phase of the pulse on the injection is presented. It is shown that using ionization injection with nitrogen as the target gas, the control of the optical phase allows production of high-quality and shot-to-shot stable electron beams. The electron bunches obtained have a relative energy spread of a few per cent, a bunch duration in the sub-fs domain, a divergence close to 10 mrad and a peak energy in the 10 MeV range, and could be produced in the near future at kHz repetition rates.",

author = "Lifschitz, {A. F.} and V. Malka",

note = "We acknowledge support from the European Research Council for funding the PARIS ERC project (contract no. 226424).",

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doi = "10.1088/1367-2630/14/5/053045",

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AU - Lifschitz, A. F.

AU - Malka, V.

N1 - We acknowledge support from the European Research Council for funding the PARIS ERC project (contract no. 226424).

PY - 2012/5/31

Y1 - 2012/5/31

N2 - Simulations performed with the particle-in-cell code Calder Circ show the feasibility of injection and acceleration of electrons in the laser wakefield created by few-femtosecond laser pulses with moderate energy at the few mJ level. A detailed study of the effect of the carrier-envelope phase of the pulse on the injection is presented. It is shown that using ionization injection with nitrogen as the target gas, the control of the optical phase allows production of high-quality and shot-to-shot stable electron beams. The electron bunches obtained have a relative energy spread of a few per cent, a bunch duration in the sub-fs domain, a divergence close to 10 mrad and a peak energy in the 10 MeV range, and could be produced in the near future at kHz repetition rates.

AB - Simulations performed with the particle-in-cell code Calder Circ show the feasibility of injection and acceleration of electrons in the laser wakefield created by few-femtosecond laser pulses with moderate energy at the few mJ level. A detailed study of the effect of the carrier-envelope phase of the pulse on the injection is presented. It is shown that using ionization injection with nitrogen as the target gas, the control of the optical phase allows production of high-quality and shot-to-shot stable electron beams. The electron bunches obtained have a relative energy spread of a few per cent, a bunch duration in the sub-fs domain, a divergence close to 10 mrad and a peak energy in the 10 MeV range, and could be produced in the near future at kHz repetition rates.

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M3 - مقالة

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JO - New Journal of Physics

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Optical phase effects in electron wakefield acceleration using few-cycle laser pulses

Abstract

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