Carrier-envelope phase controlled dynamics of relativistic electron beams in a laser-wakefield accelerator

Lucas Rovige; Joséphine Monzac; Julius Huijts; Igor A. Andriyash; Aline Vernier; Jaismeen Kaur; Marie Ouillé; Zhao Cheng; Vidmantas Tomkus; Valdas Girdauskas; Gediminas Raciukaitis; Juozas Dudutis; Valdemar Stankevic; Paulius Gecys; Rodrigo Lopez-Martens; Jérôme Faure

doi:10.1140/epjs/s11734-022-00675-7

Carrier-envelope phase controlled dynamics of relativistic electron beams in a laser-wakefield accelerator

Lucas Rovige, Joséphine Monzac, Julius Huijts, Igor A. Andriyash, Aline Vernier, Jaismeen Kaur, Marie Ouillé, Zhao Cheng, Vidmantas Tomkus, Valdas Girdauskas, Gediminas Raciukaitis, Juozas Dudutis, Valdemar Stankevic, Paulius Gecys, Rodrigo Lopez-Martens, Jérôme Faure

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

Abstract

In laser-wakefield acceleration, an ultra-intense laser pulse is focused into an underdense plasma to accelerate electrons to relativistic velocities. In most cases, the pulses consist of multiple optical cycles and the interaction is well described in the framework of the ponderomotive force where only the envelope of the laser has to be considered. But when using single-cycle pulses, the ponderomotive approximation breaks down, and the actual waveform of the laser has to be taken into account. In this paper, we use near-single-cycle laser pulses to drive a laser-wakefield accelerator. We observe variations of the electron beam pointing on the order of 10 mrad in the polarization direction, as well as 30% variations of the beam charge, locked to the value of the controlled laser carrier-envelope phase, in both nitrogen and helium plasma. Those findings are explained through particle-in-cell simulations indicating that low-emittance, ultrashort electron bunches are periodically injected off-axis by the transversally oscillating bubble associated with the slipping carrier-envelope phase.

Original language	English
Pages (from-to)	2265-2276
Number of pages	12
Journal	European Physical Journal: Special Topics
Volume	232
Issue number	13
DOIs	https://doi.org/10.1140/epjs/s11734-022-00675-7
Publication status	Published - 1 Sept 2023

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Rovige, L., Monzac, J., Huijts, J., Andriyash, I. A., Vernier, A., Kaur, J., Ouillé, M., Cheng, Z., Tomkus, V., Girdauskas, V., Raciukaitis, G., Dudutis, J., Stankevic, V., Gecys, P., Lopez-Martens, R., & Faure, J. (2023). Carrier-envelope phase controlled dynamics of relativistic electron beams in a laser-wakefield accelerator. European Physical Journal: Special Topics, 232(13), 2265-2276. https://doi.org/10.1140/epjs/s11734-022-00675-7

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title = "Carrier-envelope phase controlled dynamics of relativistic electron beams in a laser-wakefield accelerator",

abstract = "In laser-wakefield acceleration, an ultra-intense laser pulse is focused into an underdense plasma to accelerate electrons to relativistic velocities. In most cases, the pulses consist of multiple optical cycles and the interaction is well described in the framework of the ponderomotive force where only the envelope of the laser has to be considered. But when using single-cycle pulses, the ponderomotive approximation breaks down, and the actual waveform of the laser has to be taken into account. In this paper, we use near-single-cycle laser pulses to drive a laser-wakefield accelerator. We observe variations of the electron beam pointing on the order of 10 mrad in the polarization direction, as well as 30\% variations of the beam charge, locked to the value of the controlled laser carrier-envelope phase, in both nitrogen and helium plasma. Those findings are explained through particle-in-cell simulations indicating that low-emittance, ultrashort electron bunches are periodically injected off-axis by the transversally oscillating bubble associated with the slipping carrier-envelope phase.",

author = "Lucas Rovige and Jos{\'e}phine Monzac and Julius Huijts and Andriyash, \{Igor A.\} and Aline Vernier and Jaismeen Kaur and Marie Ouill{\'e} and Zhao Cheng and Vidmantas Tomkus and Valdas Girdauskas and Gediminas Raciukaitis and Juozas Dudutis and Valdemar Stankevic and Paulius Gecys and Rodrigo Lopez-Martens and J{\'e}r{\^o}me Faure",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s), under exclusive licence to EDP Sciences, Springer-Verlag GmbH Germany, part of Springer Nature.",

year = "2023",

month = sep,

day = "1",

doi = "10.1140/epjs/s11734-022-00675-7",

language = "English",

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journal = "European Physical Journal: Special Topics",

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Rovige, L, Monzac, J, Huijts, J, Andriyash, IA , Vernier, A, Kaur, J, Ouillé, M, Cheng, Z, Tomkus, V, Girdauskas, V, Raciukaitis, G, Dudutis, J, Stankevic, V, Gecys, P, Lopez-Martens, R & Faure, J 2023, 'Carrier-envelope phase controlled dynamics of relativistic electron beams in a laser-wakefield accelerator', European Physical Journal: Special Topics, vol. 232, no. 13, pp. 2265-2276. https://doi.org/10.1140/epjs/s11734-022-00675-7

TY - JOUR

T1 - Carrier-envelope phase controlled dynamics of relativistic electron beams in a laser-wakefield accelerator

AU - Rovige, Lucas

AU - Monzac, Joséphine

AU - Huijts, Julius

AU - Andriyash, Igor A.

AU - Vernier, Aline

AU - Kaur, Jaismeen

AU - Ouillé, Marie

AU - Cheng, Zhao

AU - Tomkus, Vidmantas

AU - Girdauskas, Valdas

AU - Raciukaitis, Gediminas

AU - Dudutis, Juozas

AU - Stankevic, Valdemar

AU - Gecys, Paulius

AU - Lopez-Martens, Rodrigo

AU - Faure, Jérôme

PY - 2023/9/1

Y1 - 2023/9/1

N2 - In laser-wakefield acceleration, an ultra-intense laser pulse is focused into an underdense plasma to accelerate electrons to relativistic velocities. In most cases, the pulses consist of multiple optical cycles and the interaction is well described in the framework of the ponderomotive force where only the envelope of the laser has to be considered. But when using single-cycle pulses, the ponderomotive approximation breaks down, and the actual waveform of the laser has to be taken into account. In this paper, we use near-single-cycle laser pulses to drive a laser-wakefield accelerator. We observe variations of the electron beam pointing on the order of 10 mrad in the polarization direction, as well as 30% variations of the beam charge, locked to the value of the controlled laser carrier-envelope phase, in both nitrogen and helium plasma. Those findings are explained through particle-in-cell simulations indicating that low-emittance, ultrashort electron bunches are periodically injected off-axis by the transversally oscillating bubble associated with the slipping carrier-envelope phase.

AB - In laser-wakefield acceleration, an ultra-intense laser pulse is focused into an underdense plasma to accelerate electrons to relativistic velocities. In most cases, the pulses consist of multiple optical cycles and the interaction is well described in the framework of the ponderomotive force where only the envelope of the laser has to be considered. But when using single-cycle pulses, the ponderomotive approximation breaks down, and the actual waveform of the laser has to be taken into account. In this paper, we use near-single-cycle laser pulses to drive a laser-wakefield accelerator. We observe variations of the electron beam pointing on the order of 10 mrad in the polarization direction, as well as 30% variations of the beam charge, locked to the value of the controlled laser carrier-envelope phase, in both nitrogen and helium plasma. Those findings are explained through particle-in-cell simulations indicating that low-emittance, ultrashort electron bunches are periodically injected off-axis by the transversally oscillating bubble associated with the slipping carrier-envelope phase.

U2 - 10.1140/epjs/s11734-022-00675-7

DO - 10.1140/epjs/s11734-022-00675-7

M3 - Article

AN - SCOPUS:85139515971

SN - 1951-6355

VL - 232

SP - 2265

EP - 2276

JO - European Physical Journal: Special Topics

JF - European Physical Journal: Special Topics

IS - 13

ER -

Carrier-envelope phase controlled dynamics of relativistic electron beams in a laser-wakefield accelerator

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