Investigation of laser-driven proton acceleration using ultra-short, ultra-intense laser pulses

S. Fourmaux; S. Buffechoux; B. Albertazzi; D. Capelli; A. Lévy; S. Gnedyuk; L. Lecherbourg; P. Lassonde; S. Payeur; P. Antici; H. Pépin; R. S. Marjoribanks; J. Fuchs; J. C. Kieffer

doi:10.1063/1.4789748

Investigation of laser-driven proton acceleration using ultra-short, ultra-intense laser pulses

S. Fourmaux
, S. Buffechoux
, B. Albertazzi
, D. Capelli
, A. Lévy
, S. Gnedyuk
, L. Lecherbourg
, P. Lassonde
, S. Payeur
, P. Antici
, H. Pépin
, R. S. Marjoribanks
, J. Fuchs
, J. C. Kieffer

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

Abstract

We report optimization of laser-driven proton acceleration, for a range of experimental parameters available from a single ultrafast Ti:sapphire laser system. We have characterized laser-generated protons produced at the rear and front target surfaces of thin solid targets (15 nm to 90 μm thicknesses) irradiated with an ultra-intense laser pulse (up to 10 20 W ṡ cm - 2, pulse duration 30 to 500 fs, and pulse energy 0.1 to 1.8 J). We find an almost symmetric behaviour for protons accelerated from rear and front sides, and a linear scaling of proton energy cut-off with increasing pulse energy. At constant laser intensity, we observe that the proton cut-off energy increases with increasing laser pulse duration, then roughly constant for pulses longer than 300 fs. Finally, we demonstrate that there is an optimum target thickness and pulse duration.

Original language	English
Article number	013110
Journal	Physics of Plasmas
Volume	20
Issue number	1
DOIs	https://doi.org/10.1063/1.4789748
Publication status	Published - 1 Jan 2013

Access to Document

10.1063/1.4789748

Cite this

Fourmaux, S., Buffechoux, S., Albertazzi, B., Capelli, D., Lévy, A., Gnedyuk, S., Lecherbourg, L., Lassonde, P., Payeur, S., Antici, P., Pépin, H., Marjoribanks, R. S., Fuchs, J., & Kieffer, J. C. (2013). Investigation of laser-driven proton acceleration using ultra-short, ultra-intense laser pulses. Physics of Plasmas, 20(1), Article 013110. https://doi.org/10.1063/1.4789748

@article{2527b88e878e40bdbe440d95f70a03d4,

title = "Investigation of laser-driven proton acceleration using ultra-short, ultra-intense laser pulses",

abstract = "We report optimization of laser-driven proton acceleration, for a range of experimental parameters available from a single ultrafast Ti:sapphire laser system. We have characterized laser-generated protons produced at the rear and front target surfaces of thin solid targets (15 nm to 90 μm thicknesses) irradiated with an ultra-intense laser pulse (up to 10 20 W ṡ cm - 2, pulse duration 30 to 500 fs, and pulse energy 0.1 to 1.8 J). We find an almost symmetric behaviour for protons accelerated from rear and front sides, and a linear scaling of proton energy cut-off with increasing pulse energy. At constant laser intensity, we observe that the proton cut-off energy increases with increasing laser pulse duration, then roughly constant for pulses longer than 300 fs. Finally, we demonstrate that there is an optimum target thickness and pulse duration.",

author = "S. Fourmaux and S. Buffechoux and B. Albertazzi and D. Capelli and A. L{\'e}vy and S. Gnedyuk and L. Lecherbourg and P. Lassonde and S. Payeur and P. Antici and H. P{\'e}pin and Marjoribanks, \{R. S.\} and J. Fuchs and Kieffer, \{J. C.\}",

year = "2013",

month = jan,

day = "1",

doi = "10.1063/1.4789748",

language = "English",

volume = "20",

journal = "Physics of Plasmas",

issn = "1070-664X",

number = "1",

}

TY - JOUR

T1 - Investigation of laser-driven proton acceleration using ultra-short, ultra-intense laser pulses

AU - Fourmaux, S.

AU - Buffechoux, S.

AU - Albertazzi, B.

AU - Capelli, D.

AU - Lévy, A.

AU - Gnedyuk, S.

AU - Lecherbourg, L.

AU - Lassonde, P.

AU - Payeur, S.

AU - Antici, P.

AU - Pépin, H.

AU - Marjoribanks, R. S.

AU - Fuchs, J.

AU - Kieffer, J. C.

PY - 2013/1/1

Y1 - 2013/1/1

N2 - We report optimization of laser-driven proton acceleration, for a range of experimental parameters available from a single ultrafast Ti:sapphire laser system. We have characterized laser-generated protons produced at the rear and front target surfaces of thin solid targets (15 nm to 90 μm thicknesses) irradiated with an ultra-intense laser pulse (up to 10 20 W ṡ cm - 2, pulse duration 30 to 500 fs, and pulse energy 0.1 to 1.8 J). We find an almost symmetric behaviour for protons accelerated from rear and front sides, and a linear scaling of proton energy cut-off with increasing pulse energy. At constant laser intensity, we observe that the proton cut-off energy increases with increasing laser pulse duration, then roughly constant for pulses longer than 300 fs. Finally, we demonstrate that there is an optimum target thickness and pulse duration.

AB - We report optimization of laser-driven proton acceleration, for a range of experimental parameters available from a single ultrafast Ti:sapphire laser system. We have characterized laser-generated protons produced at the rear and front target surfaces of thin solid targets (15 nm to 90 μm thicknesses) irradiated with an ultra-intense laser pulse (up to 10 20 W ṡ cm - 2, pulse duration 30 to 500 fs, and pulse energy 0.1 to 1.8 J). We find an almost symmetric behaviour for protons accelerated from rear and front sides, and a linear scaling of proton energy cut-off with increasing pulse energy. At constant laser intensity, we observe that the proton cut-off energy increases with increasing laser pulse duration, then roughly constant for pulses longer than 300 fs. Finally, we demonstrate that there is an optimum target thickness and pulse duration.

U2 - 10.1063/1.4789748

DO - 10.1063/1.4789748

M3 - Article

AN - SCOPUS:84873648176

SN - 1070-664X

VL - 20

JO - Physics of Plasmas

JF - Physics of Plasmas

IS - 1

M1 - 013110

ER -

Investigation of laser-driven proton acceleration using ultra-short, ultra-intense laser pulses

Abstract

Access to Document

Fingerprint

Cite this