Laser-produced protons and their application as a particle probe

M. BORGHESI; D.H. CAMPBELL; A. SCHIAVI; O. WILLI; A.J. MACKINNON; D. HICKS; P. PATEL; L.A. GIZZI; M. GALIMBERTI; R.J. CLARKE

doi:10.1017/S0263034602202177

Abstract

One of the most exciting results recently obtained in the ultraintense interaction research area is the observation of beams of protons with energies up to several tens of megaelectron volts, generated during the interaction of ultraintense picosecond pulses with solid targets. The particular properties of these beams (high brilliance, small source size, high degree of collimation, short duration) make them of exceptional interest in view of diagnostic applications. In a series of experiments carried out at the Rutherford Appleton Laboratory (RAL) and at the Lawrence Livermore National Laboratory (LLNL), the laser-produced proton beams have been characterized in view of their application as a particle probe for high-density matter, and applied to diagnose ultraintense laser–plasma interactions. In general, the intensity cross section of a proton beam traversing matter will be modified both by collisional stopping/scattering, and deflections caused by electric/magnetic fields. With a suitable choice of irradiation geometry and target parameters, the proton probe can be made mainly sensitive to the electric field distribution in the object probed. Therefore, point projection proton imaging appears as a powerful and unique technique for electric field detection in laser-irradiated targets and plasmas. The first measurements of transient electric fields in high-intensity laser-plasma interactions have been obtained with this technique.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Mackinnon, A. J. Patel, P. K. Price, D. W. Hicks, D. Romagnani, L. and Borghesi, M. 2003. Proton Moiré fringes for diagnosing electromagnetic fields in opaque materials and plasmas. Applied Physics Letters, Vol. 82, Issue. 19, p. 3188.

BORGHESI, M. AUDEBERT, P. BULANOV, S.V. COWAN, T. FUCHS, J. GAUTHIER, J.C. MACKINNON, A.J. PATEL, P.K. PRETZLER, G. ROMAGNANI, L. SCHIAVI, A. TONCIAN, T. and WILLI, O. 2005. High-intensity laser-plasma interaction studies employing laser-driven proton probes. Laser and Particle Beams, Vol. 23, Issue. 03,

Roth, M Brambrink, E Audebert, P Basko, M Blazevic, A Clarke, R Cobble, J Cowan, T E Fernandez, J Fuchs, J Hegelich, M Ledingham, K Logan, B G Neely, D Ruhl, H and Schollmeier, M 2005. Laser accelerated ions in ICF research prospects and experiments. Plasma Physics and Controlled Fusion, Vol. 47, Issue. 12B, p. B841.

KADO, MASATAKA DAIDO, HIROYUKI FUKUMI, ATSUSHI LI, ZHONG ORIMO, SATOSHI HAYASHI, YUKIO NISHIUCHI, MAMIKO SAGISAKA, AKITO OGURA, KOICHI MORI, MICHIAKI NAKAMURA, SHU NODA, AKIRA IWASHITA, YOSHIHISA SHIRAI, TOSHIYUKI TONGU, HIROMU TAKEUCHI, TAKESHI YAMAZAKI, ATSUSHI ITOH, HIROYUKI SOUDA, HIKARU NEMOTO, KOSHICHI OISHI, YUJI NAYUKI, TAKUYA KIRIYAMA, HIROMITSU KANAZAWA, SHUHEI AOYAMA, MAKOTO AKAHANE, YUTAKA INOUE, NORIHIRO TSUJI, KOICHI NAKAI, YOSHIKI YAMAMOTO, YOICHI KOTAKI, HIDEYUKI KONDO, SHUJI BULANOV, SERGEI ESIRKEPOV, TIMUR UTSUMI, TAKAYUKI NAGASHIMA, AKIRA KIMURA, TOYOAKI and YAMAKAWA, KOICHI 2006. Observation of strongly collimated proton beam from Tantalum targets irradiated with circular polarized laser pulses. Laser and Particle Beams, Vol. 24, Issue. 1, p. 117.

Roth, M. Audebert, P. Blazevic, A. Brambrink, E. Cobble, J. Cowan, T.E. Fernandez, J. Fuchs, J. Geissel, M. Hegelich, M. Karsch, S. Ruhl, H. Schollmeier, M. and Stephens, R. 2006. Laser accelerated heavy particles – Tailoring of ion beams on a nano-scale. Optics Communications, Vol. 264, Issue. 2, p. 519.

Tahir, N.A. Shutov, A. Lomonosov, I.V. Piriz, A.R. Wouchuk, G. Deutsch, C. Hoffmann, D.H.H. and Fortov, V.E. 2006. Numerical simulations and theoretical analysis of High Energy Density experiments at the next generation of ion beam facilities at Darmstadt: The HEDgeHOB collaboration. High Energy Density Physics, Vol. 2, Issue. 1-2, p. 21.

BRAMBRINK, ERIK ROTH, MARKUS BLAZEVIC, ABEL and SCHLEGEL, THEODOR 2006. Modeling of the electrostatic sheath shape on the rear target surface in short-pulse laser-driven proton acceleration. Laser and Particle Beams, Vol. 24, Issue. 1, p. 163.

Brambrink, E. Schreiber, J. Schlegel, T. Audebert, P. Cobble, J. Fuchs, J. Hegelich, M. and Roth, M. 2006. Transverse Characteristics of Short-Pulse Laser-Produced Ion Beams: A Study of the Acceleration Dynamics. Physical Review Letters, Vol. 96, Issue. 15,

STRANGIO, C. CARUSO, A. NEELY, D. ANDREOLI, P.L. ANZALONE, R. CLARKE, R. CRISTOFARI, G. DEL PRETE, E. DI GIORGIO, G. MURPHY, C. RICCI, C. STEVENS, R. and TOLLEY, M. 2007. Production of multi-MeV per nucleon ions in the controlled amount of matter mode (CAM) by using causally isolated targets. Laser and Particle Beams, Vol. 25, Issue. 1, p. 85.

Borghesi, M Fuchs, J and Willi, O 2007. Laser-accelerated high-energy ions: state of-the-art and applications. Journal of Physics: Conference Series, Vol. 58, Issue. , p. 74.

BORGHESI, M. KAR, S. ROMAGNANI, L. TONCIAN, T. ANTICI, P. AUDEBERT, P. BRAMBRINK, E. CECCHERINI, F. CECCHETTI, C.A. FUCHS, J. GALIMBERTI, M. GIZZI, L.A. GRISMAYER, T. LYSEIKINA, T. JUNG, R. MACCHI, A. MORA, P. OSTERHOLTZ, J. SCHIAVI, A. and WILLI, O. 2007. Impulsive electric fields driven by high-intensity laser matter interactions. Laser and Particle Beams, Vol. 25, Issue. 1, p. 161.

Batani, Dimitri Freeman, Richard R. and Baton, Sophie 2008. Progress in Ultrafast Intense Laser Science III. Vol. 89, Issue. , p. 295.

Borghesi, Marco Cecchetti, Carlo Alberto Toncian, Toma Fuchs, Julien Romagnani, Lorenzo Kar, Satyabrata Wilson, P. A. Antici, Patrizio Audebert, Patrick Brambrink, Erik Pipahl, Ariane Amin, Munib Jung, Ralph Osterholz, Jens Willi, Oswald Nazarov, Wigen Clarke, Robert J. Notley, Margaret Neely, David Mora, Patrick Grismayer, Thomas Schurtz, Guy Schiavi, Angelo Sentoku, Yasuhiko and d'Humieres, Emanuel 2008. Laser-Driven Proton Beams: Acceleration Mechanism, Beam Optimization, and Radiographic Applications. IEEE Transactions on Plasma Science, Vol. 36, Issue. 4, p. 1833.

Romagnani, L. Borghesi, M. Cecchetti, C.A. Kar, S. Antici, P. Audebert, P. Bandhoupadjay, S. Ceccherini, F. Cowan, T. Fuchs, J. Galimberti, M. Gizzi, L.A. Grismayer, T. Heathcote, R. Jung, R. Liseykina, T.V. Macchi, A. Mora, P. Neely, D. Notley, M. Osterholtz, J. Pipahl, C.A. Pretzler, G. Schiavi, A. Schurtz, G. Toncian, T. Wilson, P.A. and Willi, O. 2008. Proton probing measurement of electric and magnetic fields generated by ns and ps laser-matter interactions. Laser and Particle Beams, Vol. 26, Issue. 2, p. 241.

Jackel, O. Pfotenhauer, S. M. Polz, J. Schlenvoigt, H. P. Kaluza, M. C. and Schwoerer, H. 2008. Direct measurement of the electron density driving the laser particle acceleration with thin foils. p. 1.

Batani, D. Baton, S. D. Manclossi, M. Piazza, D. Koenig, M. Benuzzi-Mounaix, A. Popescu, H. Rousseaux, C. Borghesi, M. Cecchetti, C. and Schiavi, A. 2009. LASER-driven fast electron dynamics in gaseous media under the influence of large electric fields. Physics of Plasmas, Vol. 16, Issue. 3,

Bin, J.H. Lei, A.L. Yang, X.Q. Huang, L.G. Yu, M.Y. Yu, Wei and Tanaka, K.A. 2009. Quasi-monoenergetic proton beam generation from a double-layer solid target using an intense circularly polarized laser. Laser and Particle Beams, Vol. 27, Issue. 3, p. 485.

Nürnberg, F. Schollmeier, M. Brambrink, E. Blažević, A. Carroll, D. C. Flippo, K. Gautier, D. C. Geißel, M. Harres, K. Hegelich, B. M. Lundh, O. Markey, K. McKenna, P. Neely, D. Schreiber, J. and Roth, M. 2009. Radiochromic film imaging spectroscopy of laser-accelerated proton beams. Review of Scientific Instruments, Vol. 80, Issue. 3,

Yang, X.H. Ma, Y.Y. Shao, F.Q. Xu, H. Yu, M.Y. Gu, Y.Q. Yu, T.P. Yin, Y. Tian, C.L. and Kawata, S. 2010. Collimated proton beam generation from ultraintense laser-irradiated hole target. Laser and Particle Beams, Vol. 28, Issue. 2, p. 319.

Willingale, L. Thomas, A. G. R. Nilson, P. M. Kaluza, M. C. Bandyopadhyay, S. Dangor, A. E. Evans, R. G. Fernandes, P. Haines, M. G. Kamperidis, C. Kingham, R. J. Minardi, S. Notley, M. Ridgers, C. P. Rozmus, W. Sherlock, M. Tatarakis, M. Wei, M. S. Najmudin, Z. and Krushelnick, K. 2010. Fast Advection of Magnetic Fields by Hot Electrons. Physical Review Letters, Vol. 105, Issue. 9,

Download full list

Article contents

Laser-produced protons and their application as a particle probe

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Laser-produced protons and their application as a particle probe

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests