19 results on '"Gaus, Lennart"'
Search Results
2. Visualizing Plasmons and Ultrafast Kinetic Instabilities in Laser-Driven Solids using X-ray Scattering
- Author
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Ordyna, Paweł, Bähtz, Carsten, Brambrink, Erik, Bussmann, Michael, Garcia, Alejandro Laso, Garten, Marco, Gaus, Lennart, Grenzer, Jörg, Gutt, Christian, Höppner, Hauke, Huang, Lingen, Humphries, Oliver, Marré, Brian Edward, Metzkes-Ng, Josefine, Nakatsutsumi, Motoaki, Öztürk, Özgül, Pan, Xiayun, Paschke-Brühl, Franziska, Pelka, Alexander, Prencipe, Irene, Randolph, Lisa, Schlenvoigt, Hans-Peter, Šmíd, Michal, Stefanikova, Radka, Thiessenhusen, Erik, Toncian, Toma, Zeil, Karl, Schramm, Ulrich, Cowan, Thomas E., and Kluge, Thomas
- Subjects
Physics - Plasma Physics - Abstract
Ultra-intense lasers that ionize and accelerate electrons in solids to near the speed of light can lead to kinetic instabilities that alter the laser absorption and subsequent electron transport, isochoric heating, and ion acceleration. These instabilities can be difficult to characterize, but a novel approach using X-ray scattering at keV energies allows for their visualization with femtosecond temporal resolution on the few nanometer mesoscale. Our experiments on laser-driven flat silicon membranes show the development of structure with a dominant scale of $~60\unit{nm}$ in the plane of the laser axis and laser polarization, and $~95\unit{nm}$ in the vertical direction with a growth rate faster than $0.1/\mathrm{fs}$. Combining the XFEL experiments with simulations provides a complete picture of the structural evolution of ultra-fast laser-induced instability development, indicating the excitation of surface plasmons and the growth of a new type of filamentation instability. These findings provide new insight into the ultra-fast instability processes in solids under extreme conditions at the nanometer level with important implications for inertial confinement fusion and laboratory astrophysics.
- Published
- 2023
3. Visualizing plasmons and ultrafast kinetic instabilities in laser-driven solids using X-ray scattering
- Author
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Ordyna, Paweł, Bähtz, Carsten, Brambrink, Erik, Bussmann, Michael, Laso Garcia, Alejandro, Garten, Marco, Gaus, Lennart, Göde, Sebastian, Grenzer, Jörg, Gutt, Christian, Höppner, Hauke, Huang, Lingen, Hübner, Uwe, Humphries, Oliver, Marré, Brian Edward, Metzkes-Ng, Josefine, Miethlinger, Thomas, Nakatsutsumi, Motoaki, Öztürk, Özgül, Pan, Xiayun, Paschke-Brühl, Franziska, Pelka, Alexander, Prencipe, Irene, Preston, Thomas R., Randolph, Lisa, Schlenvoigt, Hans-Peter, Schwinkendorf, Jan-Patrick, Šmíd, Michal, Starke, Sebastian, Štefaníková, Radka, Thiessenhusen, Erik, Toncian, Toma, Zeil, Karl, Schramm, Ulrich, Cowan, Thomas E., and Kluge, Thomas
- Published
- 2024
- Full Text
- View/download PDF
4. Enhanced ion acceleration from transparency-driven foils demonstrated at two ultraintense laser facilities
- Author
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Dover, Nicholas P, Ziegler, Tim, Assenbaum, Stefan, Bernert, Constantin, Bock, Stefan, Brack, Florian-Emanuel, Cowan, Thomas E, Ditter, Emma J, Garten, Marco, Gaus, Lennart, Goethel, Ilja, Hicks, George S, Kiriyama, Hiromitsu, Kluge, Thomas, Koga, James K, Kon, Akira, Kondo, Kotaro, Kraft, Stephan, Kroll, Florian, Lowe, Hazel F, Metzkes-Ng, Josefine, Miyatake, Tatsuhiko, Najmudin, Zulfikar, Püschel, Thomas, Rehwald, Martin, Reimold, Marvin, Sakaki, Hironao, Schlenvoigt, Hans-Peter, Shiokawa, Keiichiro, Umlandt, Marvin EP, Schramm, Ulrich, Zeil, Karl, and Nishiuchi, Mamiko
- Subjects
Nuclear and Plasma Physics ,Synchrotrons and Accelerators ,Physical Sciences ,Affordable and Clean Energy ,Optical Physics ,Atomic ,molecular and optical physics - Abstract
Laser-driven ion sources are a rapidly developing technology producing high energy, high peak current beams. Their suitability for applications, such as compact medical accelerators, motivates development of robust acceleration schemes using widely available repetitive ultraintense femtosecond lasers. These applications not only require high beam energy, but also place demanding requirements on the source stability and controllability. This can be seriously affected by the laser temporal contrast, precluding the replication of ion acceleration performance on independent laser systems with otherwise similar parameters. Here, we present the experimental generation of >60 MeV protons and >30 MeV u-1 carbon ions from sub-micrometre thickness Formvar foils irradiated with laser intensities >1021 Wcm2. Ions are accelerated by an extreme localised space charge field ≳30 TVm-1, over a million times higher than used in conventional accelerators. The field is formed by a rapid expulsion of electrons from the target bulk due to relativistically induced transparency, in which relativistic corrections to the refractive index enables laser transmission through normally opaque plasma. We replicate the mechanism on two different laser facilities and show that the optimum target thickness decreases with improved laser contrast due to reduced pre-expansion. Our demonstration that energetic ions can be accelerated by this mechanism at different contrast levels relaxes laser requirements and indicates interaction parameters for realising application-specific beam delivery.
- Published
- 2023
5. Ultra-short pulse laser acceleration of protons to 80 MeV from cryogenic hydrogen jets tailored to near-critical density
- Author
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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, and Zeil, Karl
- Subjects
Nuclear and Plasma Physics ,Physical Sciences ,Affordable and Clean Energy ,Protons ,Hydrogen ,Lasers ,Particle Accelerators ,Acceleration - Abstract
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.
- Published
- 2023
6. Transient Laser-Induced Breakdown of Dielectrics in Ultrarelativistic Laser-Solid Interactions
- Author
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Bernert, Constantin, Assenbaum, Stefan, Bock, Stefan, Brack, Florian-Emanuel, Cowan, Thomas E, Curry, Chandra B, Garten, Marco, Gaus, Lennart, Gauthier, Maxence, Gebhardt, René, Göde, Sebastian, Glenzer, Siegfried H, Helbig, Uwe, Kluge, Thomas, Kraft, Stephan, Kroll, Florian, Obst-Huebl, Lieselotte, Püschel, Thomas, Rehwald, Martin, Schlenvoigt, Hans-Peter, Schoenwaelder, Christopher, Schramm, Ulrich, Treffert, Franziska, Vescovi, Milenko, Ziegler, Tim, and Zeil, Karl
- Subjects
Nuclear and Plasma Physics ,Physical Sciences ,Engineering ,Physical sciences - Abstract
For high-intensity laser-solid interactions, the absolute density and surface density gradients of the target at the arrival of the ultrarelativistic laser peak are critical parameters. Accurate modeling of the leading edge-driven target preexpansion is desired to strengthen the predictive power of associated computer simulations. The transition from an initial solid state to a plasma state, i.e., the breakdown of the solid, defines the starting point of the subsequent target preexpansion. In this work, we report on the time-resolved observation of transient laser-induced breakdown (LIB) during the leading edge of high-intensity petawatt-class laser pulses with peak intensities of up to 5.7×1021W/cm2 in interaction with dielectric cryogenic hydrogen jet targets. LIB occurs much earlier than what is typically expected following the concept of barrier suppression ionization. The observation is explained by comparing a characterization study of target-specific LIB thresholds with laser contrast measurements. The results demonstrate the relevance of the laser pulse duration dependence of LIB for high-intensity laser-solid interactions. We provide an effective approach to determine the onset of LIB and thereby the starting point of target preexpansion in other laser-target systems.
- Published
- 2023
7. Off-harmonic optical probing of high intensity laser plasma expansion dynamics in solid density hydrogen jets
- Author
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Bernert, Constantin, Assenbaum, Stefan, Brack, Florian-Emanuel, Cowan, Thomas E, Curry, Chandra B, Garten, Marco, Gaus, Lennart, Gauthier, Maxence, Göde, Sebastian, Goethel, Ilja, Glenzer, Siegfried H, Kluge, Thomas, Kraft, Stephan, Kroll, Florian, Kuntzsch, Michael, Metzkes-Ng, Josefine, Loeser, Markus, Obst-Huebl, Lieselotte, Rehwald, Martin, Schlenvoigt, Hans-Peter, Schoenwaelder, Christopher, Schramm, Ulrich, Siebold, Mathias, Treffert, Franziska, Ziegler, Tim, and Zeil, Karl
- Subjects
Nuclear and Plasma Physics ,Physical Sciences - Abstract
Due to the non-linear nature of relativistic laser induced plasma processes, the development of laser-plasma accelerators requires precise numerical modeling. Especially high intensity laser-solid interactions are sensitive to the temporal laser rising edge and the predictive capability of simulations suffers from incomplete information on the plasma state at the onset of the relativistic interaction. Experimental diagnostics utilizing ultra-fast optical backlighters can help to ease this challenge by providing temporally resolved inside into the plasma density evolution. We present the successful implementation of an off-harmonic optical probe laser setup to investigate the interaction of a high-intensity laser at [Formula: see text] peak intensity with a solid-density cylindrical cryogenic hydrogen jet target of [Formula: see text] diameter as a target test bed. The temporal synchronization of pump and probe laser, spectral filtering and spectrally resolved data of the parasitic plasma self-emission are discussed. The probing technique mitigates detector saturation by self-emission and allowed to record a temporal scan of shadowgraphy data revealing details of the target ionization and expansion dynamics that were so far not accessible for the given laser intensity. Plasma expansion speeds of up to [Formula: see text] followed by full target transparency at [Formula: see text] after the high intensity laser peak are observed. A three dimensional particle-in-cell simulation initiated with the diagnosed target pre-expansion at [Formula: see text] and post processed by ray tracing simulations supports the experimental observations and demonstrates the capability of time resolved optical diagnostics to provide quantitative input and feedback to the numerical treatment within the time frame of the relativistic laser-plasma interaction.
- Published
- 2022
8. Probing ultrafast laser plasma processes inside solids with resonant small-angle X-ray scattering
- Author
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Gaus, Lennart, Bischoff, Lothar, Bussmann, Michael, Cunningham, Eric, Curry, Chandra B., Galtier, Eric, Gauthier, Maxence, García, Alejandro Laso, Garten, Marco, Glenzer, Siegfried, Grenzer, Jörg, Gutt, Christian, Hartley, Nicholas J., Huang, Lingen, Hübner, Uwe, Kraus, Dominik, Lee, Hae Ja, McBride, Emma E., Metzkes-Ng, Josefine, Nagler, Bob, Nakatsutsumi, Motoaki, Nikl, Jan, Ota, Masato, Pelka, Alexander, Prencipe, Irene, Randolph, Lisa, Rödel, Melanie, Sakawa, Youichi, Schlenvoigt, Hans-Peter, Šmíd, Michal, Treffert, Franziska, Voigt, Katja, Zeil, Karl, Cowan, Thomas E., Schramm, Ulrich, and Kluge, Thomas
- Subjects
Physics - Plasma Physics - Abstract
Extreme states of matter exist throughout the universe e.g. inside planetary cores, stars or astrophysical jets. Such conditions are generated in the laboratory in the interaction of powerful lasers with solids, and their evolution can be probed with femtosecond precision using ultra-short X-ray pulses to study laboratory astrophysics, laser-fusion research or compact particle acceleration. X-ray scattering (SAXS) patterns and their asymmetries occurring at X-ray energies of atomic bound-bound transitions contain information on the volumetric nanoscopic distribution of density, ionization and temperature. Buried heavy ion structures in high intensity laser irradiated solids expand on the nanometer scale following heat diffusion, and are heated to more than 2 million Kelvin. These experiments demonstrate resonant SAXS with the aim to better characterize dynamic processes in extreme laboratory plasmas.
- Published
- 2020
9. Spectral and spatial shaping of laser-driven proton beams using a pulsed high-field magnet beamline
- Author
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Brack, Florian-Emanuel, Kroll, Florian, Gaus, Lennart, Bernert, Constantin, Beyreuther, Elke, Cowan, Thomas E., Karsch, Leonhard, Kraft, Stephan, Kunz-Schughart, Leoni A., Lessmann, Elisabeth, Metzkes-Ng, Josefine, Obst-Hübl, Lieselotte, Pawelke, Jörg, Rehwald, Martin, Schlenvoigt, Hans-Peter, Schramm, Ulrich, Sobiella, Manfred, Szabó, Emília Rita, Ziegler, Tim, and Zeil, Karl
- Subjects
Physics - Accelerator Physics - Abstract
Intense laser-driven proton pulses, inherently broadband and highly divergent, pose a challenge to established beamline concepts on the path to application-adapted irradiation field formation, particularly for 3D. Here we experimentally show the successful implementation of a highly efficient (50% transmission) and tuneable dual pulsed solenoid setup to generate a homogeneous (8.5% uniformity laterally and in depth) volumetric dose distribution (cylindrical volume of 5 mm diameter and depth) at a single pulse dose of 0.7 Gy via multi-energy slice selection from the broad input spectrum. The experiments have been conducted at the Petawatt beam of the Dresden Laser Acceleration Source Draco and were aided by a predictive simulation model verified by proton transport studies. With the characterised beamline we investigated manipulation and matching of lateral and depth dose profiles to various desired applications and targets. Using a specifically adapted dose profile, we successfully performed first proof-of-concept laser-driven proton irradiation studies of volumetric in-vivo normal tissue (zebrafish embryos) and in-vitro tumour tissue (SAS spheroids) samples., Comment: Submitted to Scientific Reports
- Published
- 2019
10. Publisher Correction: Spectral and spatial shaping of laser-driven proton beams using a pulsed high-field magnet beamline.
- Author
-
Brack, Florian-Emanuel, Kroll, Florian, Gaus, Lennart, Bernert, Constantin, Beyreuther, Elke, Cowan, Thomas E, Karsch, Leonhard, Kraft, Stephan, Kunz-Schughart, Leoni A, Lessmann, Elisabeth, Metzkes-Ng, Josefine, Obst-Huebl, Lieselotte, Pawelke, Jörg, Rehwald, Martin, Schlenvoigt, Hans-Peter, Schramm, Ulrich, Sobiella, Manfred, Szabó, Emília Rita, Ziegler, Tim, and Zeil, Karl
- Abstract
An amendment to this paper has been published and can be accessed via a link at the top of the paper.
- Published
- 2020
11. Spectral and spatial shaping of laser-driven proton beams using a pulsed high-field magnet beamline.
- Author
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Brack, Florian-Emanuel, Kroll, Florian, Gaus, Lennart, Bernert, Constantin, Beyreuther, Elke, Cowan, Thomas E, Karsch, Leonhard, Kraft, Stephan, Kunz-Schughart, Leoni A, Lessmann, Elisabeth, Metzkes-Ng, Josefine, Obst-Huebl, Lieselotte, Pawelke, Jörg, Rehwald, Martin, Schlenvoigt, Hans-Peter, Schramm, Ulrich, Sobiella, Manfred, Szabó, Emília Rita, Ziegler, Tim, and Zeil, Karl
- Abstract
Intense laser-driven proton pulses, inherently broadband and highly divergent, pose a challenge to established beamline concepts on the path to application-adapted irradiation field formation, particularly for 3D. Here we experimentally show the successful implementation of a highly efficient (50% transmission) and tuneable dual pulsed solenoid setup to generate a homogeneous (laterally and in depth) volumetric dose distribution (cylindrical volume of 5 mm diameter and depth) at a single pulse dose of 0.7 Gy via multi-energy slice selection from the broad input spectrum. The experiments were conducted at the Petawatt beam of the Dresden Laser Acceleration Source Draco and were aided by a predictive simulation model verified by proton transport studies. With the characterised beamline we investigated manipulation and matching of lateral and depth dose profiles to various desired applications and targets. Using an adapted dose profile, we performed a first proof-of-technical-concept laser-driven proton irradiation of volumetric in-vitro tumour tissue (SAS spheroids) to demonstrate concurrent operation of laser accelerator, beam shaping, dosimetry and irradiation procedure of volumetric biological samples.
- Published
- 2020
12. Tumour irradiation in mice with a laser-accelerated proton beam
- Author
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Kroll, Florian, Brack, Florian-Emanuel, Bernert, Constantin, Bock, Stefan, Bodenstein, Elisabeth, Brüchner, Kerstin, Cowan, Thomas E., Gaus, Lennart, Gebhardt, René, Helbig, Uwe, Karsch, Leonhard, Kluge, Thomas, Kraft, Stephan, Krause, Mechthild, Lessmann, Elisabeth, Masood, Umar, Meister, Sebastian, Metzkes-Ng, Josefine, Nossula, Alexej, Pawelke, Jörg, Pietzsch, Jens, Püschel, Thomas, Reimold, Marvin, Rehwald, Martin, Richter, Christian, Schlenvoigt, Hans-Peter, Schramm, Ulrich, Umlandt, Marvin E. P., Ziegler, Tim, Zeil, Karl, and Beyreuther, Elke
- Published
- 2022
- Full Text
- View/download PDF
13. Laser-driven high-energy proton beams from cascaded acceleration regimes
- Author
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Göthel, Ilja, primary, Assenbaum, Stefan, additional, Bernert, Constantin, additional, Brack, Florian-Emanuel, additional, Cowan, Thomas, additional, Dover, Nicholas, additional, Gaus, Lennart, additional, Kluge, Thomas, additional, Kraft, Stephan, additional, Kroll, Florian, additional, Metzkes-Ng, Josefine, additional, Nishiuchi, Mamiko, additional, Prencipe, Irene, additional, Püschel, Thomas, additional, Rehwald, Martin, additional, Reimold, Marvin, additional, Schlenvoigt, Hans-Peter, additional, Umlandt, Marvin Elias Paul, additional, Vescovi, Milenko, additional, Schramm, Ulrich, additional, Zeil, Karl, additional, and Ziegler, Tim, additional
- Published
- 2023
- Full Text
- View/download PDF
14. Visualizing Ultrafast Kinetic Instabilities in Laser-Driven Solids using X-ray Scattering
- Author
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Ordyna, Paweł, Bähtz, Carsten, Brambrink, Erik, Bussmann, Michael, Garcia, Alejandro Laso, Garten, Marco, Gaus, Lennart, Grenzer, Jörg, Gutt, Christian, Höppner, Hauke, Huang, Lingen, Humphries, Oliver, Marré, Brian Edward, Metzkes-Ng, Josefine, Nakatsutsumi, Motoaki, Öztürk, Özgül, Pan, Xiayun, Paschke-Brühl, Franziska, Pelka, Alexander, Prencipe, Irene, Randolph, Lisa, Schlenvoigt, Hans-Peter, Šmíd, Michal, Stefanikova, Radka, Thiessenhusen, Erik, Toncian, Toma, Zeil, Karl, Schramm, Ulrich, Cowan, Thomas E., and Kluge, Thomas
- Subjects
Plasma Physics (physics.plasm-ph) ,FOS: Physical sciences ,Physics - Plasma Physics - Abstract
Ultra-intense lasers that ionize and accelerate electrons in solids to near the speed of light can lead to kinetic instabilities that alter the laser absorption and subsequent electron transport, isochoric heating, and ion acceleration. These instabilities can be difficult to characterize, but a novel approach using X-ray scattering at keV energies allows for their visualization with femtosecond temporal resolution on the few nanometer mesoscale. Our experiments on laser-driven flat silicon membranes show the development of structure with a dominant scale of $~60\unit{nm}$ in the plane of the laser axis and laser polarization, and $~95\unit{nm}$ in the vertical direction with a growth rate faster than $0.1/\mathrm{fs}$. Combining the XFEL experiments with simulations provides a complete picture of the structural evolution of ultra-fast laser-induced instability development, indicating the excitation of surface plasmons and the growth of a new type of filamentation instability. These findings provide new insight into the ultra-fast instability processes in solids under extreme conditions at the nanometer level with important implications for inertial confinement fusion and laboratory astrophysics.
- Published
- 2023
- Full Text
- View/download PDF
15. Laser-proton Acceleration Developments At DRACO-PW Enabling “In-vivo” Radiobiology
- Author
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Ziegler, Tim, primary, Bernert, Constantin, additional, Beyreuther, Elke, additional, Brack, Florian, additional, Cowan, Thomas E., additional, Garten, Marco, additional, Gaus, Lennart, additional, Kluge, Thomas, additional, Kraft, Stephan, additional, Kroll, Florian, additional, Metzkes-Ng, Josefine, additional, Pawelke, Jörg, additional, Reimold, Marvin, additional, Rehwald, Martin, additional, Schlenvoigt, Hans-Peter, additional, Umlandt, Marvin E. P., additional, Schramm, Ulrich, additional, and Zeil, Karl, additional
- Published
- 2022
- Full Text
- View/download PDF
16. Probing ultrafast laser plasma processes inside solids with resonant small-angle x-ray scattering
- Author
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Gaus, Lennart, primary, Bischoff, Lothar, additional, Bussmann, Michael, additional, Cunningham, Eric, additional, Curry, Chandra B., additional, E, Juncheng, additional, Galtier, Eric, additional, Gauthier, Maxence, additional, Laso García, Alejandro, additional, Garten, Marco, additional, Glenzer, Siegfried, additional, Grenzer, Jörg, additional, Gutt, Christian, additional, Hartley, Nicholas J., additional, Huang, Lingen, additional, Hübner, Uwe, additional, Kraus, Dominik, additional, Lee, Hae Ja, additional, McBride, Emma E., additional, Metzkes-Ng, Josefine, additional, Nagler, Bob, additional, Nakatsutsumi, Motoaki, additional, Nikl, Jan, additional, Ota, Masato, additional, Pelka, Alexander, additional, Prencipe, Irene, additional, Randolph, Lisa, additional, Rödel, Melanie, additional, Sakawa, Youichi, additional, Schlenvoigt, Hans-Peter, additional, Šmíd, Michal, additional, Treffert, Franziska, additional, Voigt, Katja, additional, Zeil, Karl, additional, Cowan, Thomas E., additional, Schramm, Ulrich, additional, and Kluge, Thomas, additional
- Published
- 2021
- Full Text
- View/download PDF
17. Proton beam quality enhancement beyond the 60 MeV energy level by active control of temporal properties of the Draco PW laser
- Author
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Zeil, Karl, primary, Bernert, Constantin, additional, Brack, Florian-Emanuel, additional, Garten, Marco, additional, Gaus, Lennart, additional, Kluge, Thomas, additional, Kraft, Stephan D., additional, Kroll, Florian, additional, Metzkes-Ng, Josefine, additional, Pueschel, Thomas, additional, Rehwald, Martin, additional, Schlenvoigt, Hans-Peter, additional, and Schramm, Ulrich, additional
- Published
- 2021
- Full Text
- View/download PDF
18. Fully characterised and online monitored beamline for high-dose-rate laser-proton irradiation experiments at Draco PW
- Author
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Brack, Florian-Emanuel, primary, Kroll, Florian, additional, Gaus, Lennart, additional, Bernert, Constantin, additional, Beyreuther, Elke, additional, Cowan, Thomas E., additional, Karsch, Leonhard, additional, Kraft, Stephan D., additional, Lessmann, Elisabeth, additional, Metzkes-Ng, Josefine, additional, Pawelke, Jörg, additional, Rehwald, Martin, additional, Reimold, Marvin, additional, Schlenvoigt, Hans-Peter, additional, Schramm, Ulrich, additional, Sobiella, Manfred, additional, Umlandt, Marvin E., additional, Ziegler, Tim, additional, and Zeil, Karl, additional
- Published
- 2021
- Full Text
- View/download PDF
19. Resonant small angle x-ray scattering probing ultrashort pulse high-intensity laser-solid interactions (Conference Presentation)
- Author
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Bob Nagler, Siegfried Glenzer, Alexander Pelka, Melanie Rödel, Motoaki Nakatsutsumi, Thomas Kluge, Eric Galtier, Irene Prencipe, Uwe Hübner, Chandra Curry, Hans-Peter Schlenvoigt, Emma McBride, Thomas E. Cowan, Christian Gutt, Hae Ja Lee, M. Makita, Josefine Metzkes-Ng, Eric Cunningham, Youichi Sakawa, Maxence Gauthier, Gaus Lennart, Michael Bussmann, Ulrich Schramm, Alejandro L. Garcia, and Karl Zeil
- Subjects
Materials science ,Optics ,Small-angle X-ray scattering ,business.industry ,law ,High intensity ,business ,Laser ,Ultrashort pulse ,law.invention - Published
- 2019
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