I-BEAT: Ultrasonic method for online measurement of the energy distribution of a single ion bunch
Abstract 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 compl...
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Nature Portfolio
2019
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oai:doaj.org-article:9a7d2c7ba1cd4a6db4ef45dd0c45f2c32021-12-02T15:09:28ZI-BEAT: Ultrasonic method for online measurement of the energy distribution of a single ion bunch10.1038/s41598-019-42920-52045-2322https://doaj.org/article/9a7d2c7ba1cd4a6db4ef45dd0c45f2c32019-04-01T00:00:00Zhttps://doi.org/10.1038/s41598-019-42920-5https://doaj.org/toc/2045-2322Abstract 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.Daniel HaffaRong YangJianhui BinSebastian LehrackFlorian-Emanuel BrackHao DingFranz S. EnglbrechtYing GaoJohannes GebhardMax GilljohannJohannes GötzfriedJens HartmannSebastian HerrPeter HilzStephan D. KraftChristian KreuzerFlorian KrollFlorian H. LindnerJosefine Metzkes-NgTobias M. OstermayrEnrico RidenteThomas F. RöschGregor SchillingHans-Peter SchlenvoigtMartin SpeicherDerya TarayMatthias WürlKarl ZeilUlrich SchrammStefan KarschKatia ParodiPaul R. BoltonWalter AssmannJörg SchreiberNature PortfolioarticleMedicineRScienceQENScientific Reports, Vol 9, Iss 1, Pp 1-7 (2019) |
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Medicine R Science Q Daniel Haffa Rong Yang Jianhui Bin Sebastian Lehrack Florian-Emanuel Brack Hao Ding Franz S. Englbrecht Ying Gao Johannes Gebhard Max Gilljohann Johannes Götzfried Jens Hartmann Sebastian Herr Peter Hilz Stephan D. Kraft Christian Kreuzer Florian Kroll Florian H. Lindner Josefine Metzkes-Ng Tobias M. Ostermayr Enrico Ridente Thomas F. Rösch Gregor Schilling Hans-Peter Schlenvoigt Martin Speicher Derya Taray Matthias Würl Karl Zeil Ulrich Schramm Stefan Karsch Katia Parodi Paul R. Bolton Walter Assmann Jörg Schreiber I-BEAT: Ultrasonic method for online measurement of the energy distribution of a single ion bunch |
| description |
Abstract 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. |
| format |
article |
| author |
Daniel Haffa Rong Yang Jianhui Bin Sebastian Lehrack Florian-Emanuel Brack Hao Ding Franz S. Englbrecht Ying Gao Johannes Gebhard Max Gilljohann Johannes Götzfried Jens Hartmann Sebastian Herr Peter Hilz Stephan D. Kraft Christian Kreuzer Florian Kroll Florian H. Lindner Josefine Metzkes-Ng Tobias M. Ostermayr Enrico Ridente Thomas F. Rösch Gregor Schilling Hans-Peter Schlenvoigt Martin Speicher Derya Taray Matthias Würl Karl Zeil Ulrich Schramm Stefan Karsch Katia Parodi Paul R. Bolton Walter Assmann Jörg Schreiber |
| author_facet |
Daniel Haffa Rong Yang Jianhui Bin Sebastian Lehrack Florian-Emanuel Brack Hao Ding Franz S. Englbrecht Ying Gao Johannes Gebhard Max Gilljohann Johannes Götzfried Jens Hartmann Sebastian Herr Peter Hilz Stephan D. Kraft Christian Kreuzer Florian Kroll Florian H. Lindner Josefine Metzkes-Ng Tobias M. Ostermayr Enrico Ridente Thomas F. Rösch Gregor Schilling Hans-Peter Schlenvoigt Martin Speicher Derya Taray Matthias Würl Karl Zeil Ulrich Schramm Stefan Karsch Katia Parodi Paul R. Bolton Walter Assmann Jörg Schreiber |
| author_sort |
Daniel Haffa |
| title |
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_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_sort |
i-beat: ultrasonic method for online measurement of the energy distribution of a single ion bunch |
| publisher |
Nature Portfolio |
| publishDate |
2019 |
| url |
https://doaj.org/article/9a7d2c7ba1cd4a6db4ef45dd0c45f2c3 |
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