Your search keyword '"Goede, Sebastian"' showing total 18 results

1. Strong geometry dependence of the X-ray Thomson Scattering Spectrum in single crystal silicon

Author

Gawne, Thomas, Moldabekov, Zhandos A., Humphries, Oliver S., Appel, Karen, Baehtz, Carsten, Bouffetier, Victorien, Brambrink, Erik, Cangi, Attila, Crépisson, Celine, Göde, Sebastian, Konôpková, Zuzana, Makita, Mikako, Mishchenko, Mikhail, Nakatsutsumi, Motoaki, Randolph, Lisa, Schwalbe, Sebastian, Vorberger, Jan, Zastrau, Ulf, Dornheim, Tobias, and Preston, Thomas R.

Subjects

Condensed Matter - Materials Science, Physics - Plasma Physics

Abstract

We report on results from an experiment at the European XFEL where we measured the x-ray Thomson scattering (XRTS) spectrum of single crystal silicon with ultrahigh resolution. Compared to similar previous experiments, we consider a more complex scattering setup, in which the scattering vector changes orientation through the crystal lattice. In doing so, we are able to observe strong geometric dependencies in the inelastic scattering spectrum of silicon at low scattering angles. Furthermore, the high quality of the experimental data allows us to benchmark state-of-the-art TDDFT calculations, and demonstrate TDDFT's ability to accurately predict these geometric dependencies. Finally, we note that this experimental data was collected at a much faster rate than another recently reported dataset using the same setup, demonstrating that ultrahigh resolution XRTS data can be collected in more general experimental scenarios.

Published

2025

2. Effects of Mosaic Crystal Instrument Functions on X-ray Thomson Scattering Diagnostics

Author

Gawne, Thomas, Bellenbaum, Hannah, Fletcher, Luke B., Appel, Karen, Baehtz, Carsten, Bouffetier, Victorien, Brambrink, Erik, Brown, Danielle, Cangi, Attila, Descamps, Adrien, Göde, Sebastian, Hartley, Nicholas J., Herbert, Marie-Luise, Hesselbach, Philipp, Höppner, Hauke, Humphries, Oliver S., Konôpková, Zuzana, Garcia, Alejandro Laso, Lindqvist, Björn, Lütgert, Julian, MacDonald, Michael J., Makita, Mikako, Martin, Willow, Mishchenko, Mikhail, Moldabekov, Zhandos A., Nakatsutsumi, Motoaki, Naedler, Jean-Paul, Neumayer, Paul, Pelka, Alexander, Qu, Chongbing, Randolph, Lisa, Rips, Johannes, Toncian, Toma, Vorberger, Jan, Wollenweber, Lennart, Zastrau, Ulf, Kraus, Dominik, Preston, Thomas R., and Dornheim, Tobias

Subjects

Physics - Plasma Physics, Physics - Instrumentation and Detectors

Abstract

Mosaic crystals, with their high integrated reflectivities, are widely-employed in spectrometers used to diagnose high energy density systems. X-ray Thomson scattering (XRTS) has emerged as a powerful diagnostic tool of these systems, providing in principle direct access to important properties such as the temperature via detailed balance. However, the measured XRTS spectrum is broadened by the spectrometer instrument function (IF), and without careful consideration of the IF one risks misdiagnosing system conditions. Here, we consider in detail the IF of 40 $\mu$m and 100 $\mu$m mosaic HAPG crystals, and how the broadening varies across the spectrometer in an energy range of 6.7-8.6 keV. Notably, we find a strong asymmetry in the shape of the IF towards higher energies. As an example, we consider the effect of the asymmetry in the IF on the temperature inferred via XRTS for simulated 80 eV CH plasmas, and find that the temperature can be overestimated if an approximate symmetric IF is used. We therefore expect a detailed consideration of the full IF will have an important impact on system properties inferred via XRTS in both forward modelling and model-free approaches., Comment: 19 pages, 13 figures

Published

2024

3. Bounds on heavy axions with an X-ray free electron laser

Author

Halliday, Jack W. D., Marocco, Giacomo, Beyer, Konstantin A., Heaton, Charles, Nakatsutsumi, Motoaki, Preston, Thomas R., Arrowsmith, Charles D., Baehtz, Carsten, Goede, Sebastian, Humphries, Oliver, Garcia, Alejandro Laso, Plackett, Richard, Svensson, Pontus, Vacalis, Georgios, Wark, Justin, Wood, Daniel, Zastrau, Ulf, Bingham, Robert, Shipsey, Ian, Sarkar, Subir, and Gregori, Gianluca

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment, Physics - Atomic Physics, Physics - Instrumentation and Detectors

Abstract

We present new exclusion bounds obtained at the European X-ray Free Electron Laser facility (EuXFEL) on axion-like particles (ALPs) in the mass range 10^{-3} eV < m_a < 10^4 eV. Our experiment exploits the Primakoff effect via which photons can, in the presence of a strong external electric field, decay into axions, which then convert back into photons after passing through an opaque wall. While similar searches have been performed previously at a 3^rd generation synchrotron, our work demonstrates improved sensitivity, exploiting the higher brightness of X-rays at EuXFEL., Comment: 7 pages, 6 figures

Published

2024

4. The importance of temperature-dependent collision frequency in PIC simulation on nanometric density evolution of highly-collisional strongly-coupled dense plasmas

Author

Banjafar, Mohammadreza, Randolph, Lisa, Huang, Lingen, Rahul, S. V., Preston, Thomas R., Yabuuchi, Toshinori, Makita, Mikako, Dover, Nicholas P., Göde, Sebastian, Kon, Akira, Koga, James K., Nishiuchi, Mamiko, Paulus, Michael, Rödel, Christian, Bussmann, Michael, Cowan, Thomas E., Gutt, Christian, Mancuso, Adrian P., Kluge, Thomas, and Nakatsutsumi, Motoaki

Subjects

Physics - Plasma Physics

Abstract

Particle-in-Cell (PIC) method is a powerful plasma simulation tool for investigating high-intensity femtosecond laser-matter interaction. However, its simulation capability at high-density plasmas around the Fermi temperature is considered to be inadequate due, among others, to the necessity of implementing atomic-scale collisions. Here, we performed a one-dimensional with three-velocity space (1D3V) PIC simulation that features the realistic collision frequency around the Fermi temperature and atomic-scale cell size. The results are compared with state-of-the-art experimental results as well as with hydrodynamic simulation. We found that the PIC simulation is capable of simulating the nanoscale dynamics of solid-density plasmas around the Fermi temperature up to $\sim$2~ps driven by a laser pulse at the moderate intensity of $10^{14-15}$~$\mathrm{W/cm^{2}}$, by comparing with the state-of-the-art experimental results. The reliability of the simulation can be further improved in the future by implementing multi-dimensional kinetics and radiation transport.

Published

2024

5. X-ray induced grain boundary formation and grain rotation in Bi2Se3

Author

Katagiri, Kento, Kozioziemski, Bernard, Folsom, Eric, Göde, Sebastian, Wang, Yifan, Appel, Karen, Chalise, Darshan, Cook, Philip K., Eggert, Jon, Howard, Marylesa, Kim, Sungwon, Konôpková, Zuzana, Makita, Mikako, Nakatsutsumi, Motoaki, Nielsen, Martin M., Pelka, Alexander, Poulsen, Henning F., Preston, Thomas R., Reddy, Tharun, Schwinkendorf, Jan-Patrick, Seiboth, Frank, Simons, Hugh, Wang, Bihan, Yang, Wenge, Zastrau, Ulf, Kim, Hyunjung, and Dresselhaus-Marais, Leora E.

Subjects

Condensed Matter - Materials Science

Abstract

Optimizing grain boundary characteristics in polycrystalline materials can improve their properties. Many processing methods have been developed for grain boundary manipulation, including the use of intense radiation in certain applications. In this work, we used X-ray free electron laser pulses to irradiate single-crystalline bismuth selenide (Bi2Se3) and observed grain boundary formation and subsequent grain rotation in response to the X-ray radiation. Our observations with simultaneous transmission X-ray microscopy and X-ray diffraction demonstrate how intense X- ray radiation can rapidly change size and texture of grains., Comment: 37 pages, 11 figures including 6 supplemental figures

Published

2024

6. Ultrahigh Resolution X-ray Thomson Scattering Measurements at the European XFEL

Author

Gawne, Thomas, Moldabekov, Zhandos A., Humphries, Oliver S., Appel, Karen, Bähtz, Carsten, Bouffetier, Victorien, Brambrink, Erik, Cangi, Attila, Göde, Sebastian, Konôpková, Zuzana, Makita, Mikako, Mishchenko, Mikhail, Nakatsutsumi, Motoaki, Ramakrishna, Kushal, Randolph, Lisa, Schwalbe, Sebastian, Vorberger, Jan, Wollenweber, Lennart, Zastrau, Ulf, Dornheim, Tobias, and Preston, Thomas R.

Subjects

Physics - Plasma Physics

Abstract

Using a novel ultrahigh resolution ($\Delta E \sim 0.1\,$eV) setup to measure electronic features in x-ray Thomson scattering (XRTS) experiments at the European XFEL in Germany, we have studied the collective plasmon excitation in aluminium at ambient conditions, which we can measure very accurately even at low momentum transfers. As a result, we can resolve previously reported discrepancies between ab initio time-dependent density functional theory simulations and experimental observations. The demonstrated capability for high-resolution XRTS measurements will be a game changer for the diagnosis of experiments with matter under extreme densities, temperatures, and pressures, and unlock the full potential of state-of-the-art x-ray free electron laser (XFEL) facilities to study planetary interior conditions, to understand inertial confinement fusion applications, and for material science and discovery.

Published

2024

7. Speed of sound in methane under conditions of planetary interiors

Author

White, Thomas G., Poole, Hannah, McBride, Emma E., Oliver, Matthew, Descamps, Adrien, Fletcher, Luke B., Angermeier, W. Alex, Allen, Cameron H., Appel, Karen, Condamine, Florian P., Curry, Chandra B., Dallari, Francesco, Funk, Stefan, Galtier, Eric, Gamboa, Eliseo J., Gauthier, Maxence, Graham, Peter, Goede, Sebastian, Haden, Daniel, Kim, Jongjin B., Lee, Hae Ja, Ofori-Okai, Benjamin K., Richardson, Scott, Rigby, Alex, Schoenwaelder, Christopher, Sun, Peihao, Witte, Bastian L., Tschentscher, Thomas, Zastrau, Ulf, Nagler, Bob, Hastings, J. B., Monaco, Giulio, Gericke, Dirk O., Glenzer, Siegfried H., and Gregori, Gianluca

Subjects

Physics - Plasma Physics, Astrophysics - Earth and Planetary Astrophysics

Abstract

We present direct observations of acoustic waves in warm dense matter. We analyze wave-number- and energy-resolved x-ray spectra taken from warm dense methane created by laser heating a cryogenic liquid jet. X-ray diffraction and inelastic free-electron scattering yield sample conditions of 0.3$\pm$0.1 eV and 0.8$\pm$0.1 g/cm$^3$, corresponding to a pressure of $\sim$13 GPa. Inelastic x-ray scattering was used to observe the collective oscillations of the ions. With a highly improved energy resolution of $\sim$50 meV, we could clearly distinguish the Brillouin peaks from the quasielastic Rayleigh feature. Data at different wave numbers were utilized to derive a sound speed of 5.9$\pm$0.5 km/s, marking a high-temperature data point for methane and demonstrating consistency with Birch's law in this parameter regime., Comment: 7 pages, 4 figures

Published

2023

8. Ultra-fast yttrium hydride chemistry at high pressures via non-equilibrium states induced by x-ray free electron laser

Author

Siska, Emily, Smith, G. Alexander, Villa-Cortes, Sergio, Conway, Lewis J., Husband, Rachel J., Van Cleave, Joshua, Petitgirard, Sylvain, Cerantola, Valerio, Appel, Karen, Baehtz, Carsten, Bouffetier, Victorien, Dwiwedi, Anand, Göde, Sebastian, Gorkhover, Taisia, Konopkova, Zuzana, Hosseini, Mohammad, Kuschel, Stephan, Laurus, Torsten, Nakatsutsumi, Motoaki, Strohm, Cornelius, Sztuk-Dambietz, Jolanta, Zastrau, Ulf, Smith, Dean, Lawler, Keith V., Pickard, Chris J., Schwartz, Craig P., and Salamat, Ashkan

Subjects

Condensed Matter - Materials Science

Abstract

Controlling the formation and stoichiometric content of desired phases of materials has become a central interest for the study of a variety of fields, notably high temperature superconductivity under extreme pressures. The further possibility of accessing metastable states by initiating reactions by x-ray triggered mechanisms over ultra-short timescales is enabled with the development of x-ray free electron lasers (XFEL). Utilizing the exceptionally high brilliance x-ray pulses from the EuXFEL, we report the synthesis of a previously unobserved yttrium hydride under high pressure, along with non-stoichiometric changes in hydrogen content as probed at a repetition rate of 4.5\,MHz using time-resolved x-ray diffraction. Exploiting non-equilibrium pathways we synthesize and characterize a hydride with yttrium cations in an \textit{A}15 structure type at 125\,GPa, predicted using crystal structure searches, with a hydrogen content between 4.0--5.75 hydrogens per cation, that is enthalpically metastable on the convex hull. We demonstrate a tailored approach to changing hydrogen content using changes in x-ray fluence that is not accessible using conventional synthesis methods, and reveals a new paradigm in metastable chemical physics.

Published

2023

9. Time-resolved optical shadowgraphy of solid hydrogen jets as a testbed to benchmark particle-in-cell simulations

Author

Yang, Long, Huang, Lingen, Assenbaum, Stefan, Cowan, Thomas E, Goethel, Ilja, Göde, Sebastian, Kluge, Thomas, Rehwald, Martin, Pan, Xiayun, Schramm, Ulrich, Vorberger, Jan, Zeil, Karl, Ziegler, Tim, and Bernert, Constantin

Subjects

Physics - Plasma Physics

Abstract

Particle-in-cell (PIC) simulations are a superior tool to model kinetics-dominated plasmas in relativistic and ultrarelativistic laser-solid interactions (dimensionless vectorpotential $a_0 > 1$). The transition from relativistic to subrelativistic laser intensities ($a_0 \lesssim 1$), where correlated and collisional plasma physics become relevant, is reaching the limits of available modeling capabilities. This calls for theoretical and experimental benchmarks and the establishment of standardized testbeds. In this work, we develop such a suitable testbed to experimentally benchmark PIC simulations using a laser-irradiated micron-sized cryogenic hydrogen-jet target. Time-resolved optical shadowgraphy of the expanding plasma density, complemented by hydrodynamics and ray-tracing simulations, is used to determine the bulk-electron temperature evolution after laser irradiation. As a showcase, a study of isochoric heating of solid hydrogen induced by laser pulses with a dimensionless vectorpotential of $a_0 \approx 1$ is presented. The comparison of the bulk-electron temperature of the experiment with systematic scans of PIC simulations demostrates that, due to an interplay of vacuum heating and resonance heating of electrons, the initial surface-density gradient of the target is decisive to reach quantitative agreement at \SI{1}{\ps} after the interaction. The showcase demostrates the readiness of the testbed for controlled parameter scans at all laser intensities of $a_0 \lesssim 1$.

Published

2023

10. X-ray induced grain boundary formation and grain rotation in Bi2Se3

Author

Katagiri, Kento, Kozioziemski, Bernard, Folsom, Eric, Göde, Sebastian, Wang, Yifan, Appel, Karen, Chalise, Darshan, Cook, Philip K., Eggert, Jon, Howard, Marylesa, Kim, Sungwon, Konôpková, Zuzana, Makita, Mikako, Nakatsutsumi, Motoaki, Nielsen, Martin M., Pelka, Alexander, Poulsen, Henning F., Preston, Thomas R., Reddy, Tharun, Schwinkendorf, Jan-Patrick, Seiboth, Frank, Simons, Hugh, Wang, Bihan, Yang, Wenge, Zastrau, Ulf, Kim, Hyunjung, and Dresselhaus-Marais, Leora E.

Published

2025

11. Nanoscale subsurface dynamics of solids upon high-intensity laser irradiation observed by femtosecond grazing-incidence x-ray scattering

Author

Randolph, Lisa, Banjafar, Mohammadreza, Preston, Thomas R., Yabuuchi, Toshinori, Makita, Mikako, Dover, Nicholas P., Rödel, Christian, Göde, Sebastian, Inubushi, Yuichi, Jakob, Gerhard, Kaa, Johannes, Kon, Akira, Koga, James K., Ksenzov, Dmitriy, Matsuoka, Takeshi, Nishiuchi, Mamiko, Paulus, Michael, Schon, Frederic, Sueda, Keiichi, Sentoku, Yasuhiko, Togashi, Tadashi, Vafaee-Khanjani, Mehran, Bussmann, Michael, Cowan, Thomas E., Kläui, Mathias, Fortmann-Grote, Carsten, Huang, Lingen, Mancuso, Adrian P., Kluge, Thomas, Gutt, Christian, and Nakatsutsumi, Motoaki

Subjects

Physics - Plasma Physics, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Observing ultrafast laser-induced structural changes in nanoscale systems is essential for understanding the dynamics of intense light-matter interactions. For laser intensities on the order of $10^{14} \, \rm W/cm^2$, highly-collisional plasmas are generated at and below the surface. Subsequent transport processes such as heat conduction, electron-ion thermalization, surface ablation and resolidification occur at picosecond and nanosecond time scales. Imaging methods, e.g. using x-ray free-electron lasers (XFEL), were hitherto unable to measure the depth-resolved subsurface dynamics of laser-solid interactions with appropriate temporal and spatial resolution. Here we demonstrate picosecond grazing-incidence small-angle x-ray scattering (GISAXS) from laser-produced plasmas using XFEL pulses. Using multi-layer (ML) samples, both the surface ablation and subsurface density dynamics are measured with nanometer depth resolution. Our experimental data challenges the state-of-the-art modeling of matter under extreme conditions and opens new perspectives for laser material processing and high-energy-density science., Comment: 16 pages, 4 figures. This is the version of the article before peer review, as submitted by authors. There is a Supplementary Information file in the Ancillary files directory

Published

2020

12. New bounds on heavy axions with an X-ray free electron laser

Author

Halliday, Jack W. D., Marocco, Giacomo, Beyer, Konstantin A., Heaton, Charles, Nakatsutsumi, Motoaki, Preston, Thomas R., Arrowsmith, Charles D., Baehtz, Carsten, Goede, Sebastian, Humphries, Oliver, Garcia, Alejandro Laso, Plackett, Richard, Svensson, Pontus, Vacalis, Georgios, Wark, Justin, Wood, Daniel, Zastrau, Ulf, Bingham, Robert, Shipsey, Ian, Sarkar, Subir, Gregori, Gianluca, Halliday, Jack W. D., Marocco, Giacomo, Beyer, Konstantin A., Heaton, Charles, Nakatsutsumi, Motoaki, Preston, Thomas R., Arrowsmith, Charles D., Baehtz, Carsten, Goede, Sebastian, Humphries, Oliver, Garcia, Alejandro Laso, Plackett, Richard, Svensson, Pontus, Vacalis, Georgios, Wark, Justin, Wood, Daniel, Zastrau, Ulf, Bingham, Robert, Shipsey, Ian, Sarkar, Subir, and Gregori, Gianluca

Abstract

We present new exclusion bounds obtained at the European X-ray Free Electron Laser facility (EuXFEL) on axion-like particles (ALPs) in the mass range 10^{-3} eV < m_a < 10^{4} eV. Our experiment exploits the Primakoff effect via which photons can, in the presence of a strong external electric field, decay into axions, which then convert back into photons after passing through an opaque wall. While similar searches have been performed previously at a 3^rd generation synchrotron [1], our work demonstrates improved sensitivity, exploiting the higher brightness of X-rays at EuXFEL., Comment: 7 pages, 6 figures

Published

2024

13. X-ray diffraction of metastable structures from supercooled liquid hydrogen.

Author

Fletcher, Luke B., Levitan, Abraham L., McBride, Emma E., Kim, Jongjin B., Alves, Eduardo P., Aquila, Andrew, Frost, Mungo, Goede, Sebastian, King, Grace, Lane, Thomas J., Liang, Mengning, MacDonald, Michael J., Ofori-Okai, Benjamin K., Schönwälder, Christopher, Sun, Peihao, Hastings, Jerome B., Boutet, Sebastien, and Glenzer, Siegfried H.

Subjects

LIQUID hydrogen, X-ray diffraction, SUPERCOOLED liquids, LIQUID density, SUPERCOOLING, COHERENCE (Optics)

Abstract

We report time resolved observations of the crystallization from liquid hydrogen, supercooled to temperatures below the melting point, using 11.2 keV X-ray diffraction from the Linac Coherent Light Source (LCLS). Changes to the metastable solid and liquid structure factors have been dynamically measured. This allows for a direct determination of the lowest energy crystal polymorphs, the stacking probabilities, as well as the liquid and solid densities and temperatures. Such measurements provide experimental evidence of an Arrhenius-like growth kinetics along the stacking direction during supercooling. [ABSTRACT FROM AUTHOR]

Published

2024

14. The Speed of Sound in Methane under Conditions of the Thermal Boundary Layer of Uranus

Author

White, Thomas G., Poole, Hannah, McBride, Emma E., Oliver, Matthew, Descamps, Adrien, Fletcher, Luke B., Angermeier, W. Alex, Allen, Cameron H., Appel, Karen, Condamine, Florian P., Curry, Chandra B., Dallari, Francesco, Funk, Stefan, Galtier, Eric, Gamboa, Eliseo J., Gauthier, Maxence, Graham, Peter, Goede, Sebastian, Haden, Daniel, Kim, Jongjin B., Lee, Hae Ja, Ofori-Okai, Benjamin K., Richardson, Scott, Rigby, Alex, Schoenwaelder, Christopher, Sun, Peihao, Witte, Bastian L., Tschentscher, Thomas, Zastrau, Ulf, Nagler, Bob, Hastings, Jerome, Monaco, Giulio, Gericke, Dirk O., Glenzer, Siegfried H., Gregori, Gianluca, White, Thomas G., Poole, Hannah, McBride, Emma E., Oliver, Matthew, Descamps, Adrien, Fletcher, Luke B., Angermeier, W. Alex, Allen, Cameron H., Appel, Karen, Condamine, Florian P., Curry, Chandra B., Dallari, Francesco, Funk, Stefan, Galtier, Eric, Gamboa, Eliseo J., Gauthier, Maxence, Graham, Peter, Goede, Sebastian, Haden, Daniel, Kim, Jongjin B., Lee, Hae Ja, Ofori-Okai, Benjamin K., Richardson, Scott, Rigby, Alex, Schoenwaelder, Christopher, Sun, Peihao, Witte, Bastian L., Tschentscher, Thomas, Zastrau, Ulf, Nagler, Bob, Hastings, Jerome, Monaco, Giulio, Gericke, Dirk O., Glenzer, Siegfried H., and Gregori, Gianluca

Abstract

We present the first direct observations of acoustic waves in warm dense matter. We analyze wavenumber- and energy-resolved X-ray spectra taken from warm dense methane created by laser-heating a cryogenic liquid jet. X-ray diffraction and inelastic free electron scattering yield sample conditions of 0.3$\pm$0.1 eV and 0.8$\pm$0.1 g/cm$^3$, corresponding to a pressure of $\sim$13 GPa and matching the conditions predicted in the thermal boundary layer between the inner and outer envelope of Uranus. Inelastic X-ray scattering was used to observe the collective oscillations of the ions. With a highly improved energy resolution of $\sim$50 meV, we could clearly distinguish the Brillouin peaks from the quasi-elastic Rayleigh feature. Data at different wavenumbers were used to obtain a sound speed of 5.9$\pm$0.5 km/s, which enabled us to validate the use of Birch's law in this new parameter regime., Comment: 7 pages, 4 figures with supplementary information

Published

2023

15. Cryogenic Liquid Jets for High Repetition Rate Discovery Science

Author

Curry, Chandra B., primary, Schoenwaelder, Christopher, primary, Goede, Sebastian, primary, Kim, Jongjin B., primary, Rehwald, Martin, primary, Treffert, Franziska, primary, Zeil, Karl, primary, Glenzer, Siegfried H., primary, and Gauthier, Maxence, primary

Published

2020

16. Integrating high-repetition rate high-energy/high-intensity laser to FEL experiments (Conference Presentation)

Author

Nakatsutsumi, Motoaki, primary, Priebe, Gerd, additional, Appel, Karen, additional, Baehtz, Carsten, additional, Cowan, Thomas E., additional, Goede, Sebastian, additional, Konopkova, Zuzana, additional, Lederer, Max J., additional, Pelka, Alexander, additional, Toncian, Toma, additional, Tschentscher, Thomas, additional, Zastrau, Ulf, additional, and Chen, Bolun, additional

Published

2017

17. Integrating high-repetition rate high-energy/high-intensity laser to FEL experiments (Conference Presentation)

Author

Tschentscher, Thomas, Patthey, Luc, Nakatsutsumi, Motoaki, Priebe, Gerd, Appel, Karen, Baehtz, Carsten, Cowan, Thomas E., Goede, Sebastian, Konopkova, Zuzana, Lederer, Max J., Pelka, Alexander, Toncian, Toma, Tschentscher, Thomas, Zastrau, Ulf, and Chen, Bolun

Published

2017

18. Integrating high-repetition rate high-energy/high-intensity laser to FEL experiments (Conference Presentation).

Author

Motoaki Nakatsutsumi, Priebe, Gerd, Appel, Karen, Baehtz, Carsten, Cowan, Thomas E., Goede, Sebastian, Konopkova, Zuzana, Lederer, Max J., Pelka, Alexander, Toncian, Toma, Tschentscher, Thomas, Zastrau, Ulf, and Bolun Chen

Published

2017