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183 results on '"Sakdinawat, Anne"'

1. X-ray Microscopy and Talbot Imaging with the Matter in Extreme Conditions X-ray Imager at LCLS

Author

Galtier, Eric, Lee, Hae Ja, Khaghani, Dimitri, Boiadjieva, Nina, McGehee, Peregrine, Arnott, Ariel, Arnold, Brice, Berboucha, Meriame, Cunningham, Eric, Czapla, Nick, Dyer, Gilliss, Ettelbrick, Bob, Hart, Philip, Heimann, Philip, Welch, Marc, Makita, Mikako, Gleason, Arianna E., Pandolfi, Silvia, Sakdinawat, Anne, Liu, Yanwei, Wojcik, Michael J., Hodge, Daniel, Sandberg, Richard, Seiboth, Frank, and Nagler, Bob

Subjects
Physics - Instrumentation and Detectors
Abstract

The last decade has shown the great potential that X-ray Free Electron Lasers (FEL) have to study High Energy Density (HED) matter. Experiments at FELs have made significant breakthroughs in Shock Physics and Dynamic Diffraction, Dense Plasma Physics and Warm Dense Matter Science, using techniques such as isochoric heating, inelastic scattering, small angle scattering and x-ray diffraction. In addition, and complementary to these techniques, the coherent properties of the FEL beam can be used to image HED samples with high fidelity. We present new imaging diagnostics and techniques developed at the Matter in Extreme Conditions (MEC) instrument at Linac Coherent Light Source (LCLS) over the last few years. We show results in Phase Contrast Imaging geometry, where the X-ray beam propagates from the target to a camera revealing its phase, as well as in Direct Imaging geometry, where a real image of the sample plane is produced in the camera with a spatial resolution down to 200 nm. Last, we show an implementation of the Talbot Imaging method allowing both x-ray phase and intensity measurements change introduced by a target with sub-micron resolution.

Published
2024

2. A compact single-shot soft X-ray photon spectrometer for free electron laser diagnostics

Author

Larsen, Kirk A., Borne, Kurtis, Obaid, Razib, Kamalov, Andrei, Liu, Yusong, Cheng, Xinxin, James, Justin, Driver, Taran, Li, Kenan, Liu, Yanwei, Sakdinawat, Anne, David, Christian, Wolf, Thomas J. A., Cryan, James, Walter, Peter, and Lin, Ming-Fu

Subjects
Physics - Instrumentation and Detectors, Physics - Optics
Abstract

The photon spectrum from free-electron laser (FEL) light sources offers valuable information in time-resolved experiments and machine optimization in the spectral and temporal domains. We have developed a compact single-shot photon spectrometer to diagnose soft X-ray spectra. The spectrometer consists of an array of off-axis Fresnel zone plates (FZP) that act as transmission-imaging gratings, a Ce-YAG scintillator, and a microscope objective to image the scintillation target onto a two-dimensional imaging detector. This spectrometer operates in an energy range which covers absorption edges associated with several atomic constituents carbon, nitrogen, oxygen, and neon. The spectrometer's performance is demonstrated at a repetition rate of 120 Hz, but our detection scheme can be easily extended to 200 kHz spectral collection by employing a fast complementary metal oxide semiconductor (CMOS) line-scan camera to detect the light from the scintillator. This compact photon spectrometer provides an opportunity for monitoring the spectrum downstream of an endstation in a limited space environment with subelectronvolt energy resolution., Comment: 14 pages, 5 figures, 1 table

Published
2023

3. XCC: An X-ray FEL-based $\gamma\gamma$ Collider Higgs Factory

Author

Barklow, Tim, Dong, Su, Emma, Claudio, Duris, Joseph, Huang, Zhirong, Naji, Adham, Nanni, Emilio, Rosenzweig, James, Sakdinawat, Anne, Tantawi, Sami, and White, Glen

Subjects
High Energy Physics - Experiment, High Energy Physics - Phenomenology, Physics - Accelerator Physics
Abstract

This report describes the design of a $\gamma\gamma$ Higgs factory in which 62.8 GeV electron beams collide with 1 keV X-ray free electron laser (XFEL) beams to produce colliding beams of 62.5 GeV photons. The Higgs boson production rate is 34,000 Higgs bosons per $10^7$ second year, roughly the same as the ILC Higgs rate. The electron accelerator is based on cold copper distributed coupling (C$^3$) accelerator technology. The 0.7 J pulse energy of the XFEL represents a 300-fold increase over the pulse energy of current soft x-ray FEL's. Design challenges are discussed, along with the R\&D to address them, including demonstrators., Comment: 27 pages, 16 figures, Contributed to The US Community Study on the Future of Particle Physics (Snowmass 2021)

Published
2022

6. Shaping Coherent X-rays with Binary Optics

Author

Marchesini, Stefano and Sakdinawat, Anne

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Diffractive lenses fabricated by lithographic methods are one of the most popular image forming optics in the x-ray regime. Most commonly, binary diffractive optics, such as Fresnel zone plates are used due to their ability to focus at high resolution and to manipulate the x-ray wavefront. We report here a binary zone plate design strategy to form arbitrary illuminations for coherent multiplexing, structured illumination, and wavefront shaping experiments. Given a desired illumination, we adjust the duty cycle, harmonic order, and zone placement to vary both the amplitude and phase of the wavefront at the lens. This enables the binary lithographic pattern to generate arbitrary structured illumination optimized for a variety of applications such as holography, interferometry, ptychography, imaging, and others., Comment: 9 pages, 4 figures

Published
2018
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7. Shaping coherent x-rays with binary optics.

Author

Marchesini, Stefano and Sakdinawat, Anne

Subjects
Engineering, Electronics, Sensors and Digital Hardware, Physical Sciences, physics.optics, physics.app-ph, Optical Physics, Electrical and Electronic Engineering, Communications Technologies, Optics, Communications engineering, Electronics, sensors and digital hardware, Atomic, molecular and optical physics
Abstract

Diffractive lenses fabricated by lithographic methods are one of the most popular image forming optics in the x-ray regime. Most commonly, binary diffractive optics, such as Fresnel zone plates, are used due to their ability to focus at high resolution and to manipulate the x-ray wavefront. We report here a binary zone plate design strategy to form arbitrary illuminations for coherent multiplexing, structured illumination, and wavefront shaping experiments. Given a desired illumination, we adjust the duty cycle, harmonic order, and zone placement to vary both the amplitude and phase of the wavefront at the lens. This enables the binary lithographic pattern to generate arbitrary structured illumination optimized for a variety of applications such as holography, interferometry, ptychography, imaging, and others.

Published
2019

8. A compact single-shot soft X-ray photon spectrometer for free electron laser diagnostics

Author

Larsen, Kirk, primary, Borne, Kurtis, additional, Obaid, Razib, additional, kamalov, andrei, additional, Liu, Yusong, additional, cheng, Xinxin, additional, James, Justin, additional, Driver, Taran, additional, Li, Kenan, additional, Liu, Yanwei, additional, Sakdinawat, Anne, additional, David, Christian, additional, Wolf, Thomas, additional, Cryan, James, additional, Walter, Peter, additional, and Lin, Ming-Fu, additional

Published
2023
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10. Low-loss Stable Storage of X-ray Free Electron Laser Pulses in a 14 m Rectangular Bragg Cavity

Author

Margraf, Rachel, primary, Robles, River, additional, Halavanau, Aliaksei, additional, Krzywinski, Jacek, additional, Li, Kenan, additional, MacArthur, James, additional, Osaka, Taito, additional, Sakdinawat, Anne, additional, Sato, Takahiro, additional, Sun, Yanwen, additional, Tamasaku, Kenji, additional, Huang, Zhirong, additional, Marcus, Gabriel, additional, and Zhu, Diling, additional

Published
2023
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12. Novel fabrication tools for dynamic compression targets with engineered voids using photolithography methods

Author

Pandolfi, Silvia, primary, Carver, Thomas, additional, Hodge, Daniel, additional, Leong, Andrew F. T., additional, Kurzer-Ogul, Kelin, additional, Hart, Philip, additional, Galtier, Eric, additional, Khaghani, Dimitri, additional, Cunningham, Eric, additional, Nagler, Bob, additional, Lee, Hae Ja, additional, Bolme, Cindy, additional, Ramos, Kyle, additional, Li, Kenan, additional, Liu, Yanwei, additional, Sakdinawat, Anne, additional, Marchesini, Stefano, additional, Kozlowski, Pawel M., additional, Curry, Chandra B., additional, Decker, Franz-Joseph, additional, Vetter, Sharon, additional, Shang, Jessica, additional, Aluie, Hussein, additional, Dayton, Matthew, additional, Montgomery, David S., additional, Sandberg, Richard L., additional, and Gleason, Arianna E., additional

Published
2022
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13. Speckle-based x-ray phase contrast imaging at free-electron lasers

Author

Leong, Andrew, primary, Hodge, Daniel, primary, Pandolfi, Silvia, primary, Liu, Yanwei, primary, Li, Kenan, primary, Sakdinawat, Anne, primary, Galtier, Eric, primary, Nagler, Bob, primary, Ja Lee, Hae, primary, Cunningham, Eric, primary, Bolme, Cynthia, primary, Ramos, Kyle, primary, Kozlowski, Pawel, primary, Khaghani, Dimitri, primary, Carver, Thomas, primary, Marchesini, Stefano, primary, Sandberg, Richard, primary, E. Gleason, Arianna, primary, and Montgomery, David, primary

Published
2022
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14. Implementation of an Ultrafast X-Ray Imager with an XFEL Multi-Pulse Train to Measure Void Collapse during Laser Driven Shock Compression

Author

Hodge, Daniel, primary, E. Gleason, Arianna, primary, Pandolfi, Silvia, primary, Liu, Yanwei, primary, Li, Kenan, primary, Sakdinawat, Anne, primary, Seaberg, Matthew, primary, Hart, Philip, primary, Galtier, Eric, primary, Khaghani, Dimitri, primary, Nagler, Bob, primary, Ja Lee, Hae, primary, Cunningham, Eric, primary, Marchesini, Stefano, primary, Breanne Curry, Chandra, primary, Carver, Thomas, primary, Vetter, Sharon, primary, Decker, Franz-Josef, primary, Bolme, Cynthia, primary, Ramos, Kyle, primary, Kozlowski, Pawel, primary, Montgomery, David, primary, Leong, Andrew, primary, Dayton, Mathew, primary, Dresselhaus-Marais, Leora, primary, Ali, Suzanne, primary, Shang, Jessica, primary, Kurzer-Ogul, Kelin, primary, and Sandberg, Richard, primary

Published
2022
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16. The X-ray Focusing System at the Time-Resolved AMO Instrument

Author

Seaberg, Matthew, primary, Lee, Lance, additional, Morton, Daniel, additional, Cheng, Xinxin, additional, Cryan, James, additional, Curiel, Gregorio Ivan, additional, Dix, Brendan, additional, Driver, Taran, additional, Fox, Kay, additional, Hardin, Corey, additional, Kamalov, Andrei, additional, Li, Kenan, additional, Li, Xiang, additional, Lin, Ming-Fu, additional, Liu, Yanwei, additional, Montagne, Tim, additional, Obaid, Razib, additional, Sakdinawat, Anne, additional, Stefan, Peter, additional, Whitney, Randy, additional, Wolf, Thomas, additional, Zhang, Lin, additional, Fritz, David, additional, Walter, Peter, additional, Cocco, Daniele, additional, and Ng, May Ling, additional

Published
2022
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18. Laser-induced patterning for a diffraction grating using the phase change material of Ge2Sb2Te5 (GST) as a spatial light modulator in X-ray optics: a proof of concept

Author

Park, Jeongwon, primary, Zalden, Peter, additional, Ng, Edwin, additional, Johnston, Scott, additional, Fong, Scott W., additional, Chang, Chieh, additional, Tassone, Christopher J., additional, Van Campen, Douglas, additional, Mok, Walter, additional, Mabuchi, Hideo, additional, Wong, H.-S. Philip, additional, Shen, Zhi-Xun, additional, Lindenberg, Aaron M., additional, and Sakdinawat, Anne, additional

Published
2022
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19. Wavefront sensing at X-ray free-electron lasers1

Author

Seaberg, Matthew, Cojocaru, Ruxandra, Berujon, Sebastien, Ziegler, Eric, Jaggi, Andreas, Krempasky, Juraj, Seiboth, Frank, Aquila, Andrew, Liu, Yanwei, Sakdinawat, Anne, Lee, Hae Ja, Flechsig, Uwe, Patthey, Luc, Koch, Frieder, Seniutinas, Gediminas, David, Christian, Zhu, Diling, Mikeš, Ladislav, Makita, Mikako, Koyama, Takahisa, Mancuso, Adrian P., Chapman, Henry N., and Vagovič, Patrik

Subjects
speckle tracking, grating interferometry, X-ray free-electron lasers, wavefront sensing, Research Papers
Abstract

Here a direct comparison is made between various X-ray wavefront sensing methods with application to optics alignment and focus characterization at X-ray free-electron lasers. Difference wavefront measurements with and without a corrective phase plate agreed with its design to within λ/20, enabling a direct quantitative comparison between methods., Here a direct comparison is made between various X-ray wavefront sensing methods with application to optics alignment and focus characterization at X-ray free-electron lasers (XFELs). Focus optimization at XFEL beamlines presents unique challenges due to high peak powers as well as beam pointing instability, meaning that techniques capable of single-shot measurement and that probe the wavefront at an out-of-focus location are desirable. The techniques chosen for the comparison include single-phase-grating Talbot interferometry (shearing interferometry), dual-grating Talbot interferometry (moiré deflectometry) and speckle tracking. All three methods were implemented during a single beam time at the Linac Coherent Light Source, at the X-ray Pump Probe beamline, in order to make a direct comparison. Each method was used to characterize the wavefront resulting from a stack of beryllium compound refractive lenses followed by a corrective phase plate. In addition, difference wavefront measurements with and without the phase plate agreed with its design to within λ/20, which enabled a direct quantitative comparison between methods. Finally, a path toward automated alignment at XFEL beamlines using a wavefront sensor to close the loop is presented.

Published
2019

20. Visualization of shocked material instabilities using a fast-framing camera and XFEL four-pulse train

Author

Hodge, Daniel S., primary, Pandolfi, Silvia, additional, Liu, Yanwei, additional, Li, Kenan, additional, Sakdinawat, Anne E., additional, Seaberg, Matthew H., additional, Hart, Philip A., additional, Galtier, Eric C., additional, Khaghani, Dimitri, additional, Vetter, Sharon, additional, Curry, Chandra B., additional, Decker, Franz-Joseph, additional, Nagler, Bob, additional, Lee, Hae J., additional, Bolme, Cindy A., additional, Ramos, Kyle, additional, Kozlowski, Pawel M., additional, Montgomery, David, additional, Dayton, Matthew S., additional, Dresselhaus-Cooper, Leora E., additional, Ali, Suzanne, additional, Claus, Liam D., additional, Sanchez, Marcos O., additional, Carver, Tom, additional, Sandberg, Richard L., additional, and Gleason, Arianna, additional

Published
2021
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21. Metal-Assisted Chemical Etching and Electroless Deposition for Fabrication of Hard X-ray Pd/Si Zone Plates

Author

Akan, Rabia, Frisk, Thomas, Lundberg, Fabian, Ohlin, Hanna, Johansson, Ulf, Li, Kenan, Sakdinawat, Anne, and Vogt, Ulrich

Subjects
x-ray diffractive optics, electroless deposition, lcsh:Mechanical engineering and machinery, lcsh:TJ1-1570, high aspect ratio nanostructures, metal-assisted chemical etching, zone plate, Article
Abstract

Zone plates are diffractive optics commonly used in X-ray microscopes. Here, we present a wet-chemical approach for fabricating high aspect ratio Pd/Si zone plate optics aimed at the hard X-ray regime. A Si zone plate mold is fabricated via metal-assisted chemical etching (MACE) and further metalized with Pd via electroless deposition (ELD). MACE results in vertical Si zones with high aspect ratios. The observed MACE rate with our zone plate design is 700 nm/min. The ELD metallization yields a Pd density of 10.7 g/cm 3 , a value slightly lower than the theoretical density of 12 g/cm 3 . Fabricated zone plates have a grid design, 1:1 line-to-space-ratio, 30 nm outermost zone width, and an aspect ratio of 30:1. At 9 keV X-ray energy, the zone plate device shows a first order diffraction efficiency of 1.9%, measured at the MAX IV NanoMAX beamline. With this work, the possibility is opened to fabricate X-ray zone plates with low-cost etching and metallization methods.

Published
2020

23. Four-frame ultrafast radiography of a shocked sample at an x-ray free electron laser

Author

Hodge, Daniel, primary, Pandolfi, Silvia, additional, Liu, Yanwei, additional, Li, Kenan, additional, Sakdinawat, Anne, additional, Seaberg, Mathew, additional, Hart, Philip, additional, Galtier, Eric, additional, Khaghani, Dimitri, additional, Vetter, Sharon, additional, Decker, Franz-Joseph, additional, Nagler, Bob, additional, Lee, Hae J., additional, Bolme, Cindy, additional, Ramos, Kyle, additional, Kozlowski, Pawel M., additional, Montgomery, David S., additional, Carver, Thomas, additional, Dayton, Mathew, additional, Dresselhaus-Marais, Leora, additional, Ali, Suzanne, additional, Sandberg, Richard L., additional, and Gleason, Arianna, additional

Published
2021
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26. Cavity-Based Free-Electron Laser Research and Development: A Joint Argonne National Laboratory and SLAC National Laboratory Collaboration

Author

Marcus, Gabriel, Anton, Jayson, Assoufid, Lahsen, Decker, Franz-Josef, Gassner, Georg, Goetze, Kurt, Halavanau, Aliaksei, Hastings, Jerome, Huang, Zhirong, Jansma, William, Kearney, Steven, Kim, Kwang-Je, Lantz, Brian, Lindberg, Ryan, Liu, Yanwei, MacArthur, James, Margraf, Rachel, Miceli, Antonio, Raubenheimer, Tor, Sakdinawat, Anne, Shi, Xianbo, Shu, Deming, Shvyd'ko, Yuri, Sullivan, Joseph, Tan, Tien-Fak, White, Marion, and Zhu, Diling

Subjects
FEL Oscillators and Long Wavelengths FEL, Accelerator Physics
Abstract

One solution for producing longitudinally coherent FEL pulses is to store and recirculate the output of an amplifier in an X-ray cavity so that the X-ray pulse can interact with following fresh electron bunches over many passes. The X-ray FEL oscillator (XFELO) and the X-ray regenerative amplifier FEL (XRAFEL) concepts use this technique and rely on the same fundamental ingredients to realize their full capability. Both schemes require a high repetition rate electron beam, an undulator to provide FEL gain, and an X-ray cavity to recirculate and monochromatize the radiation. The shared infrastructure, complementary performance characteristics, and potentially transformative FEL properties of the XFELO and XRAFEL have brought together a joint Argonne National Laboratory (ANL) and SLAC National Laboratory (SLAC) collaboration aimed at enabling these schemes at LCLS-II. We present plans to install a rectangular X-ray cavity in the LCLS-II undulator hall and perform experiments employing 2-bunch copper RF linac accelerated electron beams. This includes performing cavity ring-down measurements and 2-pass gain measurements for both the low-gain XFELO and the high-gain RAFEL schemes., Proceedings of the 39th Free Electron Laser Conference, FEL2019, Hamburg, Germany

Published
2019
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27. Nanofocus characterization at the Coherent X-ray Imaging instrument using 2D single grating interferometry

Author

Seaberg, Matthew H., primary, Aquila, Andrew, additional, Liang, Mengning, additional, Lee, Hae Ja, additional, Nagler, Bob, additional, Liu, Yanwei, additional, Sakdinawat, Anne, additional, Seiboth, Frank, additional, Makita, Mikako, additional, Sun, Yanwen, additional, Signorato, Riccardo, additional, Carbajo, Sergio, additional, Feng, Yiping, additional, Krzywinski, Jacek, additional, Zhu, Diling, additional, and Boutet, Sebastien, additional

Published
2019
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28. Scanning microwave imaging of optically patterned Ge2Sb2Te5

Author

Johnston, Scott R., primary, Ng, Edwin, additional, Fong, Scott W., additional, Mok, Walter Y., additional, Park, Jeongwon, additional, Zalden, Peter, additional, Sakdinawat, Anne, additional, Wong, H.-S. Philip, additional, Mabuchi, Hideo, additional, and Shen, Zhi-Xun, additional

Published
2019
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29. High-accuracy wavefront sensing for x-ray free electron lasers

Author

Liu, Yanwei, primary, Seaberg, Matthew, additional, Zhu, Diling, additional, Krzywinski, Jacek, additional, Seiboth, Frank, additional, Hardin, Corey, additional, Cocco, Daniele, additional, Aquila, Andrew, additional, Nagler, Bob, additional, Lee, Hae Ja, additional, Boutet, Sébastien, additional, Feng, Yiping, additional, Ding, Yuantao, additional, Marcus, Gabriel, additional, and Sakdinawat, Anne, additional

Published
2018
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31. Focal Spot and Wavefront Sensing of an X-Ray Free Electron laser using Ronchi shearing interferometry

Author

Nagler, Bob, primary, Aquila, Andrew, additional, Boutet, Sébastien, additional, Galtier, Eric C., additional, Hashim, Akel, additional, S. Hunter, Mark, additional, Liang, Mengning, additional, Sakdinawat, Anne E., additional, Schroer, Christian G., additional, Schropp, Andreas, additional, Seaberg, Matthew H., additional, Seiboth, Frank, additional, van Driel, Tim, additional, Xing, Zhou, additional, Liu, Yanwei, additional, and Lee, Hae Ja, additional

Published
2017
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33. Scanning microwave imaging of optically patterned Ge2Sb2Te5.

Author

Johnston, Scott R., Ng, Edwin, Fong, Scott W., Mok, Walter Y., Park, Jeongwon, Zalden, Peter, Sakdinawat, Anne, Wong, H.-S. Philip, Mabuchi, Hideo, and Shen, Zhi-Xun

Subjects
MICROWAVE imaging, AMORPHOUS alloys, GERMANIUM alloys, ANTIMONY, ELECTRIC impedance
Abstract

The measurement of inhomogeneous conductivity in optically crystallized, amorphous Ge2Sb2Te5 (GST) films is demonstrated via scanning microwave impedance microscopy (MIM). Qualitative consistency with expectations is demonstrated in spots crystallized by focused coherent light at various intensities, exposure times, and film thicknesses. The characterization of process imperfections is demonstrated when a mask is used to optically pattern the nanoscale features of crystalline GST in the amorphous film. These measurements show the ability of MIM to resolve partial crystallization, patterning faults, and other details in optically patterned GST. [ABSTRACT FROM AUTHOR]

Published
2019
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34. Coherence measurements at P04

Author

Skopintsev, Petr, Singer, Andrej, Froemter, Robert, Oepen, Hans Peter, Senkbeil, Tobias, von Gundlach, Andreas, Gorniak, Thomas, Rosenhahn, Axel, Sakdinawat, Anne, Glaser, Leif, Mueller, Leonard, Schleitzer, Stefan, Gorobtsov, Oleg, Gruebel, Gerhard, Viefhaus, Jens, Shabalin, Anatoly, Yefanov, Oleksandr, Rose, Max, Kurta, Ruslan, Vartaniants, Ivan, Bach, Judith, and Beyersdorff, Bjoern

Published
2014

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