Shock assisted ionization injection in laser-plasma accelerators

C. Thaury; E. Guillaume; A. Lifschitz; K. Ta Phuoc; M. Hansson; G. Grittani; J. Gautier; J. -P. Goddet; A. Tafzi; O. Lundh; V. Malka

doi:10.1038/srep16310

Shock assisted ionization injection in laser-plasma accelerators

C. Thaury, E. Guillaume, A. Lifschitz, K. Ta Phuoc, M. Hansson, G. Grittani, J. Gautier, J. -P. Goddet, A. Tafzi, O. Lundh, V. Malka

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

Abstract

Ionization injection is a simple and efficient method to trap an electron beam in a laser plasma accelerator. Yet, because of a long injection length, this injection technique leads generally to the production of large energy spread electron beams. Here, we propose to use a shock front transition to localize the injection. Experimental results show that the energy spread can be reduced down to 10 MeV and that the beam energy can be tuned by varying the position of the shock. This simple technique leads to very stable and reliable injection even for modest laser energy. It should therefore become a unique tool for the development of laser-plasma accelerators.

Original language	English
Article number	16310
Number of pages	7
Journal	Scientific Reports
Volume	5
DOIs	https://doi.org/10.1038/srep16310
State	Published - 9 Nov 2015
Externally published	Yes

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@article{8af0ab09afc249d4a01ace767a4a374d,

title = "Shock assisted ionization injection in laser-plasma accelerators",

abstract = "Ionization injection is a simple and efficient method to trap an electron beam in a laser plasma accelerator. Yet, because of a long injection length, this injection technique leads generally to the production of large energy spread electron beams. Here, we propose to use a shock front transition to localize the injection. Experimental results show that the energy spread can be reduced down to 10 MeV and that the beam energy can be tuned by varying the position of the shock. This simple technique leads to very stable and reliable injection even for modest laser energy. It should therefore become a unique tool for the development of laser-plasma accelerators.",

author = "C. Thaury and E. Guillaume and A. Lifschitz and Phuoc, \{K. Ta\} and M. Hansson and G. Grittani and J. Gautier and Goddet, \{J. -P.\} and A. Tafzi and O. Lundh and V. Malka",

note = "This work was supported by the European Research Council through the ERC projects X-Five (Contract No. 339128), and by the Agence Nationale pour la recherche through the project LUCEL-X (ANR-13-BS04-0011) and CILEX (ANR-10-EQPX-CILEX). O.L. and M.H. acknowledge support by the Swedish Research Council, the Swedish Foundation for Strategic Research and the Knut and Alice Wallenberg Foundation. Thaury C. and Guillaume E. contributed equally to this work. C.T., E.G. and K.T.P. conceived the experiment, C.T., E.G., K.T.P., M.H., G.G. and O.L. conducted the experiment, A.L. wrote the code CALDER-CIRC and ran the simulation, J.-P.G. and A.T. operated the laser, C.T. and E.G. analyzed the results, C.T. wrote the paper and V.M. supervised the project. All authors reviewed the manuscript.",

year = "2015",

month = nov,

day = "9",

doi = "10.1038/srep16310",

language = "الإنجليزيّة",

volume = "5",

journal = "Scientific Reports",

issn = "2045-2322",

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TY - JOUR

T1 - Shock assisted ionization injection in laser-plasma accelerators

AU - Thaury, C.

AU - Guillaume, E.

AU - Lifschitz, A.

AU - Phuoc, K. Ta

AU - Hansson, M.

AU - Grittani, G.

AU - Gautier, J.

AU - Goddet, J. -P.

AU - Tafzi, A.

AU - Lundh, O.

AU - Malka, V.

N1 - This work was supported by the European Research Council through the ERC projects X-Five (Contract No. 339128), and by the Agence Nationale pour la recherche through the project LUCEL-X (ANR-13-BS04-0011) and CILEX (ANR-10-EQPX-CILEX). O.L. and M.H. acknowledge support by the Swedish Research Council, the Swedish Foundation for Strategic Research and the Knut and Alice Wallenberg Foundation. Thaury C. and Guillaume E. contributed equally to this work. C.T., E.G. and K.T.P. conceived the experiment, C.T., E.G., K.T.P., M.H., G.G. and O.L. conducted the experiment, A.L. wrote the code CALDER-CIRC and ran the simulation, J.-P.G. and A.T. operated the laser, C.T. and E.G. analyzed the results, C.T. wrote the paper and V.M. supervised the project. All authors reviewed the manuscript.

PY - 2015/11/9

Y1 - 2015/11/9

N2 - Ionization injection is a simple and efficient method to trap an electron beam in a laser plasma accelerator. Yet, because of a long injection length, this injection technique leads generally to the production of large energy spread electron beams. Here, we propose to use a shock front transition to localize the injection. Experimental results show that the energy spread can be reduced down to 10 MeV and that the beam energy can be tuned by varying the position of the shock. This simple technique leads to very stable and reliable injection even for modest laser energy. It should therefore become a unique tool for the development of laser-plasma accelerators.

AB - Ionization injection is a simple and efficient method to trap an electron beam in a laser plasma accelerator. Yet, because of a long injection length, this injection technique leads generally to the production of large energy spread electron beams. Here, we propose to use a shock front transition to localize the injection. Experimental results show that the energy spread can be reduced down to 10 MeV and that the beam energy can be tuned by varying the position of the shock. This simple technique leads to very stable and reliable injection even for modest laser energy. It should therefore become a unique tool for the development of laser-plasma accelerators.

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U2 - 10.1038/srep16310

DO - 10.1038/srep16310

M3 - مقالة

SN - 2045-2322

VL - 5

JO - Scientific Reports

JF - Scientific Reports

M1 - 16310

ER -

Shock assisted ionization injection in laser-plasma accelerators

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