Generation of MeV-Range Protons From 30-100 nm Solid Targets by Ultra-High-Contrast Laser Pulses

We have compared the acceleration of high-energy ions from the rear surface of thin foils for various prepulse contrast conditions of the ultraintense laser pulse irradiating the targets. The experiments were performed using the Laboratoire pour l'Utilisation des Lasers Intenses 100-TW laser fa...

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Veröffentlicht in:	IEEE transactions on plasma science 2008-08, Vol.36 (4), p.1817-1820
Hauptverfasser:	ANTICI, Patrizio, FUCHS, Julien, TONCIAN, Toma, AUDEBERT, Patrick, PEPIN, Henri, D'HUMIERES, Emmanuel, LEFEBVRE, Erik, BORGHESI, Marco, BRAMBRINK, Erik, CECCHETTI, Carlo A, GAILLARD, Sandrine A, ROMAGNANI, Lorenzo, SENTOKU, Yasuhiko
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Sprache:	eng
Schlagworte:	Aluminum Charged-particle beams Communication, education, history, and philosophy Electromagnetism electron and ion optics Exact sciences and technology Experiments Fundamental areas of phenomenology (including applications) Ions Laser-driven acceleration Lasers Physics Physics literature and publications Plasma Protons
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creator	ANTICI, Patrizio FUCHS, Julien TONCIAN, Toma AUDEBERT, Patrick PEPIN, Henri D'HUMIERES, Emmanuel LEFEBVRE, Erik BORGHESI, Marco BRAMBRINK, Erik CECCHETTI, Carlo A GAILLARD, Sandrine A ROMAGNANI, Lorenzo SENTOKU, Yasuhiko
description	We have compared the acceleration of high-energy ions from the rear surface of thin foils for various prepulse contrast conditions of the ultraintense laser pulse irradiating the targets. The experiments were performed using the Laboratoire pour l'Utilisation des Lasers Intenses 100-TW laser facility with 15-20 J energy pulses of $>>10^{18} hbox {W/cm}^{2}$ intensity irradiating aluminum targets of variable thicknesses. The laser pulse contrast ratio ahead of the main pulse (prepulse) was varied using either a fast Pockels cell or a single or double plasma mirror (PM). The latter was installed at an intermediate field position, in between the focusing optics and the target. This way, the effect of reducing the laser prepulse by the PM was optimized. With both methods improving the laser pulse contrast, we have observed that one can significantly reduce the thickness of the target used for proton acceleration and, at the same time, increase 1) the maximum energy of the accelerated protons and 2) the energy conversion efficiency of the process. This offers interesting perspectives from high-energy (5-10 MeV) ion acceleration using sub-petawatt laser facilities. A full characterization of contrast enhancement due to the PM, as well as a detailed analysis of the accelerated proton beams, is presented. [PUBLICATION ABSTRACT]
doi_str_mv	10.1109/TPS.2008.2001229
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The experiments were performed using the Laboratoire pour l'Utilisation des Lasers Intenses 100-TW laser facility with 15-20 J energy pulses of $>>10^{18} hbox {W/cm}^{2}$ intensity irradiating aluminum targets of variable thicknesses. The laser pulse contrast ratio ahead of the main pulse (prepulse) was varied using either a fast Pockels cell or a single or double plasma mirror (PM). The latter was installed at an intermediate field position, in between the focusing optics and the target. This way, the effect of reducing the laser prepulse by the PM was optimized. With both methods improving the laser pulse contrast, we have observed that one can significantly reduce the thickness of the target used for proton acceleration and, at the same time, increase 1) the maximum energy of the accelerated protons and 2) the energy conversion efficiency of the process. This offers interesting perspectives from high-energy (5-10 MeV) ion acceleration using sub-petawatt laser facilities. A full characterization of contrast enhancement due to the PM, as well as a detailed analysis of the accelerated proton beams, is presented. 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The experiments were performed using the Laboratoire pour l'Utilisation des Lasers Intenses 100-TW laser facility with 15-20 J energy pulses of $>>10^{18} hbox {W/cm}^{2}$ intensity irradiating aluminum targets of variable thicknesses. The laser pulse contrast ratio ahead of the main pulse (prepulse) was varied using either a fast Pockels cell or a single or double plasma mirror (PM). The latter was installed at an intermediate field position, in between the focusing optics and the target. This way, the effect of reducing the laser prepulse by the PM was optimized. With both methods improving the laser pulse contrast, we have observed that one can significantly reduce the thickness of the target used for proton acceleration and, at the same time, increase 1) the maximum energy of the accelerated protons and 2) the energy conversion efficiency of the process. This offers interesting perspectives from high-energy (5-10 MeV) ion acceleration using sub-petawatt laser facilities. A full characterization of contrast enhancement due to the PM, as well as a detailed analysis of the accelerated proton beams, is presented. [PUBLICATION ABSTRACT]</description><subject>Aluminum</subject><subject>Charged-particle beams</subject><subject>Communication, education, history, and philosophy</subject><subject>Electromagnetism; electron and ion optics</subject><subject>Exact sciences and technology</subject><subject>Experiments</subject><subject>Fundamental areas of phenomenology (including applications)</subject><subject>Ions</subject><subject>Laser-driven acceleration</subject><subject>Lasers</subject><subject>Physics</subject><subject>Physics literature and publications</subject><subject>Plasma</subject><subject>Protons</subject><issn>0093-3813</issn><issn>1939-9375</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2008</creationdate><recordtype>article</recordtype><recordid>eNo9kEFPAjEUhBujiYjePTYmHouv7W63PRqiYIKRCHit3W4XlywttsuBf-8SiJc3c5iZl3wI3VMYUQrqaTlfjBiAPB7KmLpAA6q4IooX-SUaAChOuKT8Gt2ktOkzWQ5sgL4nzrtouiZ4HGr87r7Ip_Frh-cxdMEn_BrDFnMgFAD7LV6Etqnw0sS16xIuD3jVdtGQabP-IePge586PDPJRTzft8mlW3RVm97cnXWIVq8vy_GUzD4mb-PnGbEcoCOsyKuS8wxqWgpZSZWLLDNlUWVO2TLLrbRlDtIaYYUFyYRwVilWANisoLzmQ_Rw2t3F8Lt3qdObsI--f6mpymkhRCH7EJxCNoaUoqv1LjZbEw-agj5i1D1GfcSozxj7yuN51yRr2joab5v032MgcsYE53-Aa2_c</recordid><startdate>20080801</startdate><enddate>20080801</enddate><creator>ANTICI, Patrizio</creator><creator>FUCHS, Julien</creator><creator>TONCIAN, Toma</creator><creator>AUDEBERT, Patrick</creator><creator>PEPIN, Henri</creator><creator>D'HUMIERES, Emmanuel</creator><creator>LEFEBVRE, Erik</creator><creator>BORGHESI, Marco</creator><creator>BRAMBRINK, Erik</creator><creator>CECCHETTI, Carlo A</creator><creator>GAILLARD, Sandrine A</creator><creator>ROMAGNANI, Lorenzo</creator><creator>SENTOKU, Yasuhiko</creator><general>Institute of Electrical and Electronics Engineers</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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subjects	Aluminum Charged-particle beams Communication, education, history, and philosophy Electromagnetism electron and ion optics Exact sciences and technology Experiments Fundamental areas of phenomenology (including applications) Ions Laser-driven acceleration Lasers Physics Physics literature and publications Plasma Protons
title	Generation of MeV-Range Protons From 30-100 nm Solid Targets by Ultra-High-Contrast Laser Pulses
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