Experimental station Bernina at SwissFEL: condensed matter physics on femtosecond time scales investigated by X-ray diffraction and spectroscopic methods

The Bernina instrument at the SwissFEL Aramis hard X-ray free-electron laser is designed for studying ultrafast phenomena in condensed matter and material science. Ultrashort pulses from an optical laser system covering a large wavelength range can be used to generate specific non-equilibrium states...

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Autores principales: Ingold, Gerhard, Abela, Rafael, Arrell, Christopher, Beaud, Paul, Böhler, Pirmin, Cammarata, Marco, Deng, Yunpei, Erny, Christian, Esposito, Vincent, Flechsig, Uwe, Follath, Rolf, Hauri, Christoph, Johnson, Steven, Juranic, Pavle, Mancini, Giulia Fulvia, Mankowsky, Roman, Mozzanica, Aldo, Oggenfuss, Roland Alex, Patterson, Bruce D., Patthey, Luc, Pedrini, Bill, Rittmann, Jochen, Sala, Leonardo, Savoini, Matteo, Svetina, Cristian, Zamofing, Thierry, Zerdane, Serhane, Lemke, Henrik Till
Formato: Online Artículo Texto
Lenguaje:English
Publicado: International Union of Crystallography 2019
Materias:
Beamlines
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6510206/
https://www.ncbi.nlm.nih.gov/pubmed/31074452
http://dx.doi.org/10.1107/S160057751900331X
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author Ingold, Gerhard
Abela, Rafael
Arrell, Christopher
Beaud, Paul
Böhler, Pirmin
Cammarata, Marco
Deng, Yunpei
Erny, Christian
Esposito, Vincent
Flechsig, Uwe
Follath, Rolf
Hauri, Christoph
Johnson, Steven
Juranic, Pavle
Mancini, Giulia Fulvia
Mankowsky, Roman
Mozzanica, Aldo
Oggenfuss, Roland Alex
Patterson, Bruce D.
Patthey, Luc
Pedrini, Bill
Rittmann, Jochen
Sala, Leonardo
Savoini, Matteo
Svetina, Cristian
Zamofing, Thierry
Zerdane, Serhane
Lemke, Henrik Till
author_facet Ingold, Gerhard
Abela, Rafael
Arrell, Christopher
Beaud, Paul
Böhler, Pirmin
Cammarata, Marco
Deng, Yunpei
Erny, Christian
Esposito, Vincent
Flechsig, Uwe
Follath, Rolf
Hauri, Christoph
Johnson, Steven
Juranic, Pavle
Mancini, Giulia Fulvia
Mankowsky, Roman
Mozzanica, Aldo
Oggenfuss, Roland Alex
Patterson, Bruce D.
Patthey, Luc
Pedrini, Bill
Rittmann, Jochen
Sala, Leonardo
Savoini, Matteo
Svetina, Cristian
Zamofing, Thierry
Zerdane, Serhane
Lemke, Henrik Till
author_sort Ingold, Gerhard
collection PubMed
description The Bernina instrument at the SwissFEL Aramis hard X-ray free-electron laser is designed for studying ultrafast phenomena in condensed matter and material science. Ultrashort pulses from an optical laser system covering a large wavelength range can be used to generate specific non-equilibrium states, whose subsequent temporal evolution can be probed by selective X-ray scattering techniques in the range 2–12 keV. For that purpose, the X-ray beamline is equipped with optical elements which tailor the X-ray beam size and energy, as well as with pulse-to-pulse diagnostics that monitor the X-ray pulse intensity, position, as well as its spectral and temporal properties. The experiments can be performed using multiple interchangeable endstations differing in specialization, diffractometer and X-ray analyser configuration and load capacity for specialized sample environment. After testing the instrument in a series of pilot experiments in 2018, regular user operation begins in 2019.
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spelling pubmed-65102062019-06-03 Experimental station Bernina at SwissFEL: condensed matter physics on femtosecond time scales investigated by X-ray diffraction and spectroscopic methods Ingold, Gerhard Abela, Rafael Arrell, Christopher Beaud, Paul Böhler, Pirmin Cammarata, Marco Deng, Yunpei Erny, Christian Esposito, Vincent Flechsig, Uwe Follath, Rolf Hauri, Christoph Johnson, Steven Juranic, Pavle Mancini, Giulia Fulvia Mankowsky, Roman Mozzanica, Aldo Oggenfuss, Roland Alex Patterson, Bruce D. Patthey, Luc Pedrini, Bill Rittmann, Jochen Sala, Leonardo Savoini, Matteo Svetina, Cristian Zamofing, Thierry Zerdane, Serhane Lemke, Henrik Till J Synchrotron Radiat Beamlines The Bernina instrument at the SwissFEL Aramis hard X-ray free-electron laser is designed for studying ultrafast phenomena in condensed matter and material science. Ultrashort pulses from an optical laser system covering a large wavelength range can be used to generate specific non-equilibrium states, whose subsequent temporal evolution can be probed by selective X-ray scattering techniques in the range 2–12 keV. For that purpose, the X-ray beamline is equipped with optical elements which tailor the X-ray beam size and energy, as well as with pulse-to-pulse diagnostics that monitor the X-ray pulse intensity, position, as well as its spectral and temporal properties. The experiments can be performed using multiple interchangeable endstations differing in specialization, diffractometer and X-ray analyser configuration and load capacity for specialized sample environment. After testing the instrument in a series of pilot experiments in 2018, regular user operation begins in 2019. International Union of Crystallography 2019-04-15 /pmc/articles/PMC6510206/ /pubmed/31074452 http://dx.doi.org/10.1107/S160057751900331X Text en © Gerhard Ingold et al. 2019 http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution (CC-BY) Licence, which permits unrestricted use, distribution, and reproduction in any medium, provided the original authors and source are cited.http://creativecommons.org/licenses/by/4.0/
spellingShingle Beamlines
Ingold, Gerhard
Abela, Rafael
Arrell, Christopher
Beaud, Paul
Böhler, Pirmin
Cammarata, Marco
Deng, Yunpei
Erny, Christian
Esposito, Vincent
Flechsig, Uwe
Follath, Rolf
Hauri, Christoph
Johnson, Steven
Juranic, Pavle
Mancini, Giulia Fulvia
Mankowsky, Roman
Mozzanica, Aldo
Oggenfuss, Roland Alex
Patterson, Bruce D.
Patthey, Luc
Pedrini, Bill
Rittmann, Jochen
Sala, Leonardo
Savoini, Matteo
Svetina, Cristian
Zamofing, Thierry
Zerdane, Serhane
Lemke, Henrik Till
Experimental station Bernina at SwissFEL: condensed matter physics on femtosecond time scales investigated by X-ray diffraction and spectroscopic methods
title Experimental station Bernina at SwissFEL: condensed matter physics on femtosecond time scales investigated by X-ray diffraction and spectroscopic methods
title_full Experimental station Bernina at SwissFEL: condensed matter physics on femtosecond time scales investigated by X-ray diffraction and spectroscopic methods
title_fullStr Experimental station Bernina at SwissFEL: condensed matter physics on femtosecond time scales investigated by X-ray diffraction and spectroscopic methods
title_full_unstemmed Experimental station Bernina at SwissFEL: condensed matter physics on femtosecond time scales investigated by X-ray diffraction and spectroscopic methods
title_short Experimental station Bernina at SwissFEL: condensed matter physics on femtosecond time scales investigated by X-ray diffraction and spectroscopic methods
title_sort experimental station bernina at swissfel: condensed matter physics on femtosecond time scales investigated by x-ray diffraction and spectroscopic methods
topic Beamlines
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6510206/
https://www.ncbi.nlm.nih.gov/pubmed/31074452
http://dx.doi.org/10.1107/S160057751900331X
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