_version_ 1866911387232501760
author Garcia, Alejandro Laso
Mishchenko, Mikhail
Bouffetier, Victorien
Perez-Callejo, Gabriel
Appel, Karen
Arefiev, Alexey
Baehtz, Carsten
Brambrink, Erik
Cernaianu, Mihail
Doria, Domenico
Dornheim, Tobias
Dyer, Gillis M.
Fefeu, Nicolas
Galtier, Eric
Gawne, Thomas
Ghenuche, Petru V.
Goede, Sebastian
Hagemann, Johannes
Herbert, Marie-Luise
Höppner, Hauke
Huang, Lingen
Humphries, Oliver
Jones, Mae
Khaghani, Dimitri
Kluge, Thomas
Koliyadu, Jayanath
Kraus, Dominik
Lee, Hae Ja
Lütgert, Julian
Makita, Mikako
Naedler, Jean-Paul
Nagler, Bob
Nakatsutsumi, Motoaki
Nguyen, Quynh
Pelka, Alexander
Preston, Thomas R.
Qu, Chong Bing
Rahul, Sripati V.
Randolph, Lisa
Redmer, Ronald
Rehwald, Martin
Rinderknecht, Hans G.
Rodriguez-Fernandez, Angel
Santos, Joao J.
Schramm, Ulrich
Smid, Michal
Strohm, Cornelius
Strucka, Jergus
Tang, Minxue
Vagovic, Patrik
Vescovi, Milenko
Yang, Long
Zeil, Karl
Zastrau, Ulf
Cowan, Thomas E.
Toncian, Toma
author_facet Garcia, Alejandro Laso
Mishchenko, Mikhail
Bouffetier, Victorien
Perez-Callejo, Gabriel
Appel, Karen
Arefiev, Alexey
Baehtz, Carsten
Brambrink, Erik
Cernaianu, Mihail
Doria, Domenico
Dornheim, Tobias
Dyer, Gillis M.
Fefeu, Nicolas
Galtier, Eric
Gawne, Thomas
Ghenuche, Petru V.
Goede, Sebastian
Hagemann, Johannes
Herbert, Marie-Luise
Höppner, Hauke
Huang, Lingen
Humphries, Oliver
Jones, Mae
Khaghani, Dimitri
Kluge, Thomas
Koliyadu, Jayanath
Kraus, Dominik
Lee, Hae Ja
Lütgert, Julian
Makita, Mikako
Naedler, Jean-Paul
Nagler, Bob
Nakatsutsumi, Motoaki
Nguyen, Quynh
Pelka, Alexander
Preston, Thomas R.
Qu, Chong Bing
Rahul, Sripati V.
Randolph, Lisa
Redmer, Ronald
Rehwald, Martin
Rinderknecht, Hans G.
Rodriguez-Fernandez, Angel
Santos, Joao J.
Schramm, Ulrich
Smid, Michal
Strohm, Cornelius
Strucka, Jergus
Tang, Minxue
Vagovic, Patrik
Vescovi, Milenko
Yang, Long
Zeil, Karl
Zastrau, Ulf
Cowan, Thomas E.
Toncian, Toma
contents The imaging platform developed at the High Energy Density - Helmholtz International Beamline for Extreme Fields (HED-HiBEF) instrument at the European XFEL and its applications to high energy density and fusion related research are presented. The platform combines the XFEL beam with the high-intensity short-pulse laser ReLaX and the high-energy nanosecond-pulse laser DiPOLE-100X. The spatial resolution is better than 500 nm and the temporal resolution of the order of 50 fs. We show examples of blast waves and converging cylindrical shocks in aluminium, resonant absorption measurements of specific charged states in copper with ReLaX and planar shocks in polystyrene material generated by DiPOLE-100X. We also discuss the possibilities introduced by combining this imaging platform with a kJ-class laser.
format Preprint
id arxiv_https___arxiv_org_abs_2601_14028
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle XFEL Imaging Techniques for High Energy Density and Inertial Fusion Energy Research at HED-HiBEF
Garcia, Alejandro Laso
Mishchenko, Mikhail
Bouffetier, Victorien
Perez-Callejo, Gabriel
Appel, Karen
Arefiev, Alexey
Baehtz, Carsten
Brambrink, Erik
Cernaianu, Mihail
Doria, Domenico
Dornheim, Tobias
Dyer, Gillis M.
Fefeu, Nicolas
Galtier, Eric
Gawne, Thomas
Ghenuche, Petru V.
Goede, Sebastian
Hagemann, Johannes
Herbert, Marie-Luise
Höppner, Hauke
Huang, Lingen
Humphries, Oliver
Jones, Mae
Khaghani, Dimitri
Kluge, Thomas
Koliyadu, Jayanath
Kraus, Dominik
Lee, Hae Ja
Lütgert, Julian
Makita, Mikako
Naedler, Jean-Paul
Nagler, Bob
Nakatsutsumi, Motoaki
Nguyen, Quynh
Pelka, Alexander
Preston, Thomas R.
Qu, Chong Bing
Rahul, Sripati V.
Randolph, Lisa
Redmer, Ronald
Rehwald, Martin
Rinderknecht, Hans G.
Rodriguez-Fernandez, Angel
Santos, Joao J.
Schramm, Ulrich
Smid, Michal
Strohm, Cornelius
Strucka, Jergus
Tang, Minxue
Vagovic, Patrik
Vescovi, Milenko
Yang, Long
Zeil, Karl
Zastrau, Ulf
Cowan, Thomas E.
Toncian, Toma
Plasma Physics
The imaging platform developed at the High Energy Density - Helmholtz International Beamline for Extreme Fields (HED-HiBEF) instrument at the European XFEL and its applications to high energy density and fusion related research are presented. The platform combines the XFEL beam with the high-intensity short-pulse laser ReLaX and the high-energy nanosecond-pulse laser DiPOLE-100X. The spatial resolution is better than 500 nm and the temporal resolution of the order of 50 fs. We show examples of blast waves and converging cylindrical shocks in aluminium, resonant absorption measurements of specific charged states in copper with ReLaX and planar shocks in polystyrene material generated by DiPOLE-100X. We also discuss the possibilities introduced by combining this imaging platform with a kJ-class laser.
title XFEL Imaging Techniques for High Energy Density and Inertial Fusion Energy Research at HED-HiBEF
topic Plasma Physics
url https://arxiv.org/abs/2601.14028