Ultra-short pulse laser acceleration of protons to 80 MeV from cryogenic hydrogen jets tailored to near-critical density

Laser plasma-based particle accelerators attract great interest in fields where conventional accelerators reach limits based on size, cost or beam parameters. Despite the fact that particle in cell simulations have predicted several advantageous ion acceleration schemes, laser accelerators have not...

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Autores principales: Rehwald, Martin, Assenbaum, Stefan, Bernert, Constantin, Brack, Florian-Emanuel, Bussmann, Michael, Cowan, Thomas E., Curry, Chandra B., Fiuza, Frederico, Garten, Marco, Gaus, Lennart, Gauthier, Maxence, Göde, Sebastian, Göthel, Ilja, Glenzer, Siegfried H., Huang, Lingen, Huebl, Axel, Kim, Jongjin B., Kluge, Thomas, Kraft, Stephan, Kroll, Florian, Metzkes-Ng, Josefine, Miethlinger, Thomas, Loeser, Markus, Obst-Huebl, Lieselotte, Reimold, Marvin, Schlenvoigt, Hans-Peter, Schoenwaelder, Christopher, Schramm, Ulrich, Siebold, Mathias, Treffert, Franziska, Yang, Long, Ziegler, Tim, Zeil, Karl
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10329016/
https://www.ncbi.nlm.nih.gov/pubmed/37419912
http://dx.doi.org/10.1038/s41467-023-39739-0
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author Rehwald, Martin
Assenbaum, Stefan
Bernert, Constantin
Brack, Florian-Emanuel
Bussmann, Michael
Cowan, Thomas E.
Curry, Chandra B.
Fiuza, Frederico
Garten, Marco
Gaus, Lennart
Gauthier, Maxence
Göde, Sebastian
Göthel, Ilja
Glenzer, Siegfried H.
Huang, Lingen
Huebl, Axel
Kim, Jongjin B.
Kluge, Thomas
Kraft, Stephan
Kroll, Florian
Metzkes-Ng, Josefine
Miethlinger, Thomas
Loeser, Markus
Obst-Huebl, Lieselotte
Reimold, Marvin
Schlenvoigt, Hans-Peter
Schoenwaelder, Christopher
Schramm, Ulrich
Siebold, Mathias
Treffert, Franziska
Yang, Long
Ziegler, Tim
Zeil, Karl
author_facet Rehwald, Martin
Assenbaum, Stefan
Bernert, Constantin
Brack, Florian-Emanuel
Bussmann, Michael
Cowan, Thomas E.
Curry, Chandra B.
Fiuza, Frederico
Garten, Marco
Gaus, Lennart
Gauthier, Maxence
Göde, Sebastian
Göthel, Ilja
Glenzer, Siegfried H.
Huang, Lingen
Huebl, Axel
Kim, Jongjin B.
Kluge, Thomas
Kraft, Stephan
Kroll, Florian
Metzkes-Ng, Josefine
Miethlinger, Thomas
Loeser, Markus
Obst-Huebl, Lieselotte
Reimold, Marvin
Schlenvoigt, Hans-Peter
Schoenwaelder, Christopher
Schramm, Ulrich
Siebold, Mathias
Treffert, Franziska
Yang, Long
Ziegler, Tim
Zeil, Karl
author_sort Rehwald, Martin
collection PubMed
description Laser plasma-based particle accelerators attract great interest in fields where conventional accelerators reach limits based on size, cost or beam parameters. Despite the fact that particle in cell simulations have predicted several advantageous ion acceleration schemes, laser accelerators have not yet reached their full potential in producing simultaneous high-radiation doses at high particle energies. The most stringent limitation is the lack of a suitable high-repetition rate target that also provides a high degree of control of the plasma conditions required to access these advanced regimes. Here, we demonstrate that the interaction of petawatt-class laser pulses with a pre-formed micrometer-sized cryogenic hydrogen jet plasma overcomes these limitations enabling tailored density scans from the solid to the underdense regime. Our proof-of-concept experiment demonstrates that the near-critical plasma density profile produces proton energies of up to 80 MeV. Based on hydrodynamic and three-dimensional particle in cell simulations, transition between different acceleration schemes are shown, suggesting enhanced proton acceleration at the relativistic transparency front for the optimal case.
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spelling pubmed-103290162023-07-09 Ultra-short pulse laser acceleration of protons to 80 MeV from cryogenic hydrogen jets tailored to near-critical density Rehwald, Martin Assenbaum, Stefan Bernert, Constantin Brack, Florian-Emanuel Bussmann, Michael Cowan, Thomas E. Curry, Chandra B. Fiuza, Frederico Garten, Marco Gaus, Lennart Gauthier, Maxence Göde, Sebastian Göthel, Ilja Glenzer, Siegfried H. Huang, Lingen Huebl, Axel Kim, Jongjin B. Kluge, Thomas Kraft, Stephan Kroll, Florian Metzkes-Ng, Josefine Miethlinger, Thomas Loeser, Markus Obst-Huebl, Lieselotte Reimold, Marvin Schlenvoigt, Hans-Peter Schoenwaelder, Christopher Schramm, Ulrich Siebold, Mathias Treffert, Franziska Yang, Long Ziegler, Tim Zeil, Karl Nat Commun Article Laser plasma-based particle accelerators attract great interest in fields where conventional accelerators reach limits based on size, cost or beam parameters. Despite the fact that particle in cell simulations have predicted several advantageous ion acceleration schemes, laser accelerators have not yet reached their full potential in producing simultaneous high-radiation doses at high particle energies. The most stringent limitation is the lack of a suitable high-repetition rate target that also provides a high degree of control of the plasma conditions required to access these advanced regimes. Here, we demonstrate that the interaction of petawatt-class laser pulses with a pre-formed micrometer-sized cryogenic hydrogen jet plasma overcomes these limitations enabling tailored density scans from the solid to the underdense regime. Our proof-of-concept experiment demonstrates that the near-critical plasma density profile produces proton energies of up to 80 MeV. Based on hydrodynamic and three-dimensional particle in cell simulations, transition between different acceleration schemes are shown, suggesting enhanced proton acceleration at the relativistic transparency front for the optimal case. Nature Publishing Group UK 2023-07-07 /pmc/articles/PMC10329016/ /pubmed/37419912 http://dx.doi.org/10.1038/s41467-023-39739-0 Text en © The Author(s) 2023 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Rehwald, Martin
Assenbaum, Stefan
Bernert, Constantin
Brack, Florian-Emanuel
Bussmann, Michael
Cowan, Thomas E.
Curry, Chandra B.
Fiuza, Frederico
Garten, Marco
Gaus, Lennart
Gauthier, Maxence
Göde, Sebastian
Göthel, Ilja
Glenzer, Siegfried H.
Huang, Lingen
Huebl, Axel
Kim, Jongjin B.
Kluge, Thomas
Kraft, Stephan
Kroll, Florian
Metzkes-Ng, Josefine
Miethlinger, Thomas
Loeser, Markus
Obst-Huebl, Lieselotte
Reimold, Marvin
Schlenvoigt, Hans-Peter
Schoenwaelder, Christopher
Schramm, Ulrich
Siebold, Mathias
Treffert, Franziska
Yang, Long
Ziegler, Tim
Zeil, Karl
Ultra-short pulse laser acceleration of protons to 80 MeV from cryogenic hydrogen jets tailored to near-critical density
title Ultra-short pulse laser acceleration of protons to 80 MeV from cryogenic hydrogen jets tailored to near-critical density
title_full Ultra-short pulse laser acceleration of protons to 80 MeV from cryogenic hydrogen jets tailored to near-critical density
title_fullStr Ultra-short pulse laser acceleration of protons to 80 MeV from cryogenic hydrogen jets tailored to near-critical density
title_full_unstemmed Ultra-short pulse laser acceleration of protons to 80 MeV from cryogenic hydrogen jets tailored to near-critical density
title_short Ultra-short pulse laser acceleration of protons to 80 MeV from cryogenic hydrogen jets tailored to near-critical density
title_sort ultra-short pulse laser acceleration of protons to 80 mev from cryogenic hydrogen jets tailored to near-critical density
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10329016/
https://www.ncbi.nlm.nih.gov/pubmed/37419912
http://dx.doi.org/10.1038/s41467-023-39739-0
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