I-BEAT: Ultrasonic method for online measurement of the energy distribution of a single ion bunch

The shape of a wave carries all information about the spatial and temporal structure of its source, given that the medium and its properties are known. Most modern imaging methods seek to utilize this nature of waves originating from Huygens’ principle. We discuss the retrieval of the complete kinet...

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Autores principales: Haffa, Daniel, Yang, Rong, Bin, Jianhui, Lehrack, Sebastian, Brack, Florian-Emanuel, Ding, Hao, Englbrecht, Franz S., Gao, Ying, Gebhard, Johannes, Gilljohann, Max, Götzfried, Johannes, Hartmann, Jens, Herr, Sebastian, Hilz, Peter, Kraft, Stephan D., Kreuzer, Christian, Kroll, Florian, Lindner, Florian H., Metzkes-Ng, Josefine, Ostermayr, Tobias M., Ridente, Enrico, Rösch, Thomas F., Schilling, Gregor, Schlenvoigt, Hans-Peter, Speicher, Martin, Taray, Derya, Würl, Matthias, Zeil, Karl, Schramm, Ulrich, Karsch, Stefan, Parodi, Katia, Bolton, Paul R., Assmann, Walter, Schreiber, Jörg
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2019
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6491586/
https://www.ncbi.nlm.nih.gov/pubmed/31040311
http://dx.doi.org/10.1038/s41598-019-42920-5
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author Haffa, Daniel
Yang, Rong
Bin, Jianhui
Lehrack, Sebastian
Brack, Florian-Emanuel
Ding, Hao
Englbrecht, Franz S.
Gao, Ying
Gebhard, Johannes
Gilljohann, Max
Götzfried, Johannes
Hartmann, Jens
Herr, Sebastian
Hilz, Peter
Kraft, Stephan D.
Kreuzer, Christian
Kroll, Florian
Lindner, Florian H.
Metzkes-Ng, Josefine
Ostermayr, Tobias M.
Ridente, Enrico
Rösch, Thomas F.
Schilling, Gregor
Schlenvoigt, Hans-Peter
Speicher, Martin
Taray, Derya
Würl, Matthias
Zeil, Karl
Schramm, Ulrich
Karsch, Stefan
Parodi, Katia
Bolton, Paul R.
Assmann, Walter
Schreiber, Jörg
author_facet Haffa, Daniel
Yang, Rong
Bin, Jianhui
Lehrack, Sebastian
Brack, Florian-Emanuel
Ding, Hao
Englbrecht, Franz S.
Gao, Ying
Gebhard, Johannes
Gilljohann, Max
Götzfried, Johannes
Hartmann, Jens
Herr, Sebastian
Hilz, Peter
Kraft, Stephan D.
Kreuzer, Christian
Kroll, Florian
Lindner, Florian H.
Metzkes-Ng, Josefine
Ostermayr, Tobias M.
Ridente, Enrico
Rösch, Thomas F.
Schilling, Gregor
Schlenvoigt, Hans-Peter
Speicher, Martin
Taray, Derya
Würl, Matthias
Zeil, Karl
Schramm, Ulrich
Karsch, Stefan
Parodi, Katia
Bolton, Paul R.
Assmann, Walter
Schreiber, Jörg
author_sort Haffa, Daniel
collection PubMed
description The shape of a wave carries all information about the spatial and temporal structure of its source, given that the medium and its properties are known. Most modern imaging methods seek to utilize this nature of waves originating from Huygens’ principle. We discuss the retrieval of the complete kinetic energy distribution from the acoustic trace that is recorded when a short ion bunch deposits its energy in water. This novel method, which we refer to as Ion-Bunch Energy Acoustic Tracing (I-BEAT), is a refinement of the ionoacoustic approach. With its capability of completely monitoring a single, focused proton bunch with prompt readout and high repetition rate, I-BEAT is a promising approach to meet future requirements of experiments and applications in the field of laser-based ion acceleration. We demonstrate its functionality at two laser-driven ion sources for quantitative online determination of the kinetic energy distribution in the focus of single proton bunches.
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spelling pubmed-64915862019-05-17 I-BEAT: Ultrasonic method for online measurement of the energy distribution of a single ion bunch Haffa, Daniel Yang, Rong Bin, Jianhui Lehrack, Sebastian Brack, Florian-Emanuel Ding, Hao Englbrecht, Franz S. Gao, Ying Gebhard, Johannes Gilljohann, Max Götzfried, Johannes Hartmann, Jens Herr, Sebastian Hilz, Peter Kraft, Stephan D. Kreuzer, Christian Kroll, Florian Lindner, Florian H. Metzkes-Ng, Josefine Ostermayr, Tobias M. Ridente, Enrico Rösch, Thomas F. Schilling, Gregor Schlenvoigt, Hans-Peter Speicher, Martin Taray, Derya Würl, Matthias Zeil, Karl Schramm, Ulrich Karsch, Stefan Parodi, Katia Bolton, Paul R. Assmann, Walter Schreiber, Jörg Sci Rep Article The shape of a wave carries all information about the spatial and temporal structure of its source, given that the medium and its properties are known. Most modern imaging methods seek to utilize this nature of waves originating from Huygens’ principle. We discuss the retrieval of the complete kinetic energy distribution from the acoustic trace that is recorded when a short ion bunch deposits its energy in water. This novel method, which we refer to as Ion-Bunch Energy Acoustic Tracing (I-BEAT), is a refinement of the ionoacoustic approach. With its capability of completely monitoring a single, focused proton bunch with prompt readout and high repetition rate, I-BEAT is a promising approach to meet future requirements of experiments and applications in the field of laser-based ion acceleration. We demonstrate its functionality at two laser-driven ion sources for quantitative online determination of the kinetic energy distribution in the focus of single proton bunches. Nature Publishing Group UK 2019-04-30 /pmc/articles/PMC6491586/ /pubmed/31040311 http://dx.doi.org/10.1038/s41598-019-42920-5 Text en © The Author(s) 2019 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/.
spellingShingle Article
Haffa, Daniel
Yang, Rong
Bin, Jianhui
Lehrack, Sebastian
Brack, Florian-Emanuel
Ding, Hao
Englbrecht, Franz S.
Gao, Ying
Gebhard, Johannes
Gilljohann, Max
Götzfried, Johannes
Hartmann, Jens
Herr, Sebastian
Hilz, Peter
Kraft, Stephan D.
Kreuzer, Christian
Kroll, Florian
Lindner, Florian H.
Metzkes-Ng, Josefine
Ostermayr, Tobias M.
Ridente, Enrico
Rösch, Thomas F.
Schilling, Gregor
Schlenvoigt, Hans-Peter
Speicher, Martin
Taray, Derya
Würl, Matthias
Zeil, Karl
Schramm, Ulrich
Karsch, Stefan
Parodi, Katia
Bolton, Paul R.
Assmann, Walter
Schreiber, Jörg
I-BEAT: Ultrasonic method for online measurement of the energy distribution of a single ion bunch
title I-BEAT: Ultrasonic method for online measurement of the energy distribution of a single ion bunch
title_full I-BEAT: Ultrasonic method for online measurement of the energy distribution of a single ion bunch
title_fullStr I-BEAT: Ultrasonic method for online measurement of the energy distribution of a single ion bunch
title_full_unstemmed I-BEAT: Ultrasonic method for online measurement of the energy distribution of a single ion bunch
title_short I-BEAT: Ultrasonic method for online measurement of the energy distribution of a single ion bunch
title_sort i-beat: ultrasonic method for online measurement of the energy distribution of a single ion bunch
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6491586/
https://www.ncbi.nlm.nih.gov/pubmed/31040311
http://dx.doi.org/10.1038/s41598-019-42920-5
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