Your search keyword '"Erk, B"' showing total 243 results

1. Double diffraction imaging of X-ray induced structural dynamics in single free nanoparticles

Author

Sauppe, M., Bischoff, T., Bomme, C., Bostedt, C., Colombo, A., Erk, B., Feigl, T., Flückiger, L., Gorkhover, T., Heilrath, A., Kolatzki, K., Kumagai, Y., Langbehn, B., Müller, J. P., Passow, C., Ramm, D., Rolles, D., Rompotis, D., Schäfer-Zimmermann, J., Senfftleben, B., Treusch, R., Ulmer, A., Zimbalski, J., Möller, T., and Rupp, D.

Subjects

Physics - Atomic and Molecular Clusters, Physics - Instrumentation and Detectors, Physics - Optics

Abstract

Because of their high photon flux, X-ray free-electron lasers (FEL) allow to resolve the structure of individual nanoparticles via coherent diffractive imaging (CDI) within a single X-ray pulse. Since the inevitable rapid destruction of the sample limits the achievable resolution, a thorough understanding of the spatiotemporal evolution of matter on the nanoscale following the irradiation is crucial. We present a technique to track X-ray induced structural changes in time and space by recording two consecutive diffraction patterns of the same single, free-flying nanoparticle, acquired separately on two large-area detectors opposite to each other, thus examining both the initial and evolved particle structure. We demonstrate the method at the extreme ultraviolet (XUV) and soft X-ray Free-electron LASer in Hamburg (FLASH), investigating xenon clusters as model systems. By splitting a single XUV pulse, two diffraction patterns from the same particle can be obtained. For focus intensities of about $2\cdot10^{12}\,\text{W/cm}^2$ we observe still largely intact clusters even at the longest delays of up to 650 picoseconds of the second pulse, indicating that in the highly absorbing systems the damage remains confined to one side of the cluster. Instead, in case of five times higher flux, the diffraction patterns show clear signatures of disintegration, namely increased diameters and density fluctuations in the fragmenting clusters. Future improvements to the accessible range of dynamics and time resolution of the approach are discussed.

Published

2023

2. Time-resolved single-particle x-ray scattering reveals electron-density as coherent plasmonic-nanoparticle-oscillation source

Author

Hoeing, D., Salzwedel, R., Worbs, L., Zhuang, Y., Samanta, A. K., Lübke, J., Estillore, A., Dlugolecki, K., Passow, C., Erk, B., Ekanayaje, N., Ramm, D., Correa, J., Papadooulou, C. C., Noor, A. T., Schulz, F., Selig, M., Knorr, A., Ayyer, K., Küpper, J., and Lange, H.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Optics

Abstract

Dynamics of optically-excited plasmonic nanoparticles are presently understood as a series of sequential scattering events, involving thermalization processes after pulsed optical excitation. One important step is the initiation of nanoparticle breathing oscillations. According to established experiments and models, these are caused by the statistical heat transfer from thermalized electrons to the lattice. An additional contribution by hot electron pressure has to be included to account for phase mismatches that arise from the lack of experimental data on the breathing onset. We used optical transient-absorption spectroscopy and time-resolved single-particle x-ray-diffractive imaging to access the excited electron system and lattice. The time-resolved single-particle imaging data provided structural information directly on the onset of the breathing oscillation and confirmed the need for an additional excitation mechanism to thermal expansion, while the observed phase-dependence of the combined structural and optical data contrasted previous studies. Therefore, we developed a new model that reproduces all our experimental observations without using fit parameters. We identified optically-induced electron density gradients as the main driving source., Comment: 32 pages, 5 figures, 1 supporting information document included

Published

2023

3. Investigating charge-up and fragmentation dynamics of oxygen molecules after interaction with strong X-ray free-electron laser pulses

Author

Kastirke, G, Ota, F, Rezvan, DV, Schöffler, MS, Weller, M, Rist, J, Boll, R, Anders, N, Baumann, TM, Eckart, S, Erk, B, De Fanis, A, Fehre, K, Gatton, A, Grundmann, S, Grychtol, P, Hartung, A, Hofmann, M, Ilchen, M, Janke, C, Kircher, M, Kunitski, M, Li, X, Mazza, T, Melzer, N, Montano, J, Music, V, Nalin, G, Ovcharenko, Y, Pier, A, Rennhack, N, Rivas, DE, Dörner, R, Rolles, D, Rudenko, A, Schmidt, Ph, Siebert, J, Strenger, N, Trabert, D, Vela-Perez, I, Wagner, R, Weber, Th, Williams, JB, Ziolkowski, P, Schmidt, L Ph H, Czasch, A, Tamura, Y, Hara, N, Yamazaki, K, Hatada, K, Trinter, F, Meyer, M, Ueda, K, Demekhin, Ph V, and Jahnke, T

Subjects

Physical Sciences, Chemical Sciences, Atomic, Molecular and Optical Physics, Physical Chemistry, Chemical Physics

Abstract

During the last decade, X-ray free-electron lasers (XFELs) have enabled the study of light-matter interaction under extreme conditions. Atoms which are subject to XFEL radiation are charged by a complex interplay of (several subsequent) photoionization events and electronic decay processes within a few femtoseconds. The interaction with molecules is even more intriguing, since intricate nuclear dynamics occur as the molecules start to dissociate during the charge-up process. Here, we demonstrate that by analyzing photoelectron angular emission distributions and kinetic energy release of charge states of ionic molecular fragments, we can obtain a detailed understanding of the charge-up and fragmentation dynamics. Our novel approach allows for gathering such information without the need of complex ab initio modeling. As an example, we provide a detailed view on the processes happening on a femtosecond time scale in oxygen molecules exposed to intense XFEL pulses.

Published

2022

4. Photoelectron Diffraction Imaging of a Molecular Breakup Using an X-Ray Free-Electron Laser

Author

Kastirke, G, Schöffler, MS, Weller, M, Rist, J, Boll, R, Anders, N, Baumann, TM, Eckart, S, Erk, B, De Fanis, A, Fehre, K, Gatton, A, Grundmann, S, Grychtol, P, Hartung, A, Hofmann, M, Ilchen, M, Janke, C, Kircher, M, Kunitski, M, Li, X, Mazza, T, Melzer, N, Montano, J, Music, V, Nalin, G, Ovcharenko, Y, Pier, A, Rennhack, N, Rivas, DE, Dörner, R, Rolles, D, Rudenko, A, Schmidt, P, Siebert, J, Strenger, N, Trabert, D, Vela-Perez, I, Wagner, R, Weber, T, Williams, JB, Ziolkowski, P, Schmidt, LPH, Czasch, A, Trinter, F, Meyer, M, Ueda, K, Demekhin, PV, and Jahnke, T

Subjects

Astronomical and Space Sciences, Condensed Matter Physics, Quantum Physics

Abstract

A central motivation for the development of x-ray free-electron lasers has been the prospect of time-resolved single-molecule imaging with atomic resolution. Here, we show that x-ray photoelectron diffraction - where a photoelectron emitted after x-ray absorption illuminates the molecular structure from within - can be used to image the increase of the internuclear distance during the x-ray-induced fragmentation of an O2 molecule. By measuring the molecular-frame photoelectron emission patterns for a two-photon sequential K-shell ionization in coincidence with the fragment ions, and by sorting the data as a function of the measured kinetic energy release, we can resolve the elongation of the molecular bond by approximately 1.2 a.u. within the duration of the x-ray pulse. The experiment paves the road toward time-resolved pump-probe photoelectron diffraction imaging at high-repetition-rate x-ray free-electron lasers.

Published

2020

5. Extreme Ultraviolet Superfluorescence in Xenon and Krypton

Author

Mercadier, L., Benediktovitch, A., Weninger, C., Blessenohl, M. A., Bernitt, S., Bekker, H., Dobrodey, S., Sánchez-González, A., Erk, B., Bomme, C., Boll, R., Yin, Z., Majety, V. P., Steinbrügge, R., Khalal, M. A., Penent, F., Palaudoux, J., Lablanquie, P., Rudenko, A., Rolles, D., López-Urrutia, J. R. Crespo, and Rohringer, N.

Subjects

Physics - Atomic Physics

Abstract

We present a comprehensive experimental and theoretical study on superfluorescence in the extreme ultraviolet wavelength regime. Focusing a high-intensity free-electron laser pulse in a cell filled with Xe or Kr gas, the medium is quasi instantaneously population-inverted by inner-shell ionization on the giant resonance followed by Auger decay. On the timescale of 100 ps a macroscopic polarization builds up in the medium, resulting in superfluorescent emission of several Xe and Kr lines in the forward direction. As the number of emitters in the system is increased by either raising the pressure or the pump-pulse energy, the emission shows an exponential growth of over 4 orders of magnitude and reaches saturation. With increasing yield, we observe line broadening, a manifestation of superfluorescence in the spectral domain. Our novel theoretical approach, based on a full quantum treatment of the atomic system and the irradiated field, shows quantitative agreement with the experiment and supports our interpretation.

Published

2018

6. Ultrafast x-ray-induced nuclear dynamics in diatomic molecules using femtosecond x-ray/x-ray pump-probe spectroscopy

Author

Lehmann, C. S., Picón, A., Bostedt, C., Rudenko, A., Marinelli, A., Moonshiram, D., Osipov, T., Rolles, D., Berrah, N., Bomme, C., Bucher, M., Doumy, G., Erk, B., Ferguson, K. R., Gorkhover, T., Ho, P. J., Kanter, E. P., Krassig, B., Krzywinski, J., Lutman, A. A., March, A. M., Ray, D., Young, L., Pratt, S. T., and Southworth, S. H.

Subjects

Physics - Atomic Physics, Quantum Physics

Abstract

The capability of generating two intense, femtosecond x-ray pulses with controlled time delay opens the possibility of performing time-resolved experiments for x-ray induced phenomena. We have applied this capability to study the photoinduced dynamics in diatomic molecules. In molecules composed of low-Z elements, \textit{K}-shell ionization creates a core-hole state in which the main decay mode is an Auger process involving two electrons in the valence shell. After Auger decay, the nuclear wavepackets of the transient two-valence-hole states continue evolving on the femtosecond timescale, leading either to separated atomic ions or long-lived quasi-bound states. By using an x-ray pump and an x-ray probe pulse tuned above the \textit{K}-shell ionization threshold of the nitrogen molecule, we are able to observe ion dissociation in progress by measuring the time-dependent kinetic energy releases of different breakup channels. We simulated the measurements on N$_2$ with a molecular dynamics model that accounts for \textit{K}-shell ionization, Auger decay, and the time evolution of the nuclear wavepackets. In addition to explaining the time-dependent feature in the measured kinetic energy release distributions from the dissociative states, the simulation also reveals the contributions of quasi-bound states.

Published

2018

7. Characterizing the multi-dimensional reaction dynamics of dihalomethanes using XUV-induced Coulomb explosion imaging.

Author

Walmsley, T., Unwin, J., Allum, F., Bari, S., Boll, R., Borne, K., Brouard, M., Bucksbaum, P., Ekanayake, N., Erk, B., Forbes, R., Howard, A. J., Eng-Johnsson, P., Lee, J. W. L., Liu, Z., Manschwetus, B., Mason, R., Passow, C., Peschel, J., and Rivas, D.

Subjects

COULOMB explosion, STRUCTURAL dynamics, GENETIC drift, DAUGHTER ions, DEGREES of freedom, MASS spectrometry

Abstract

Site-selective probing of iodine 4d orbitals at 13.1 nm was used to characterize the photolysis of CH2I2 and CH2BrI initiated at 202.5 nm. Time-dependent fragment ion momenta were recorded using Coulomb explosion imaging mass spectrometry and used to determine the structural dynamics of the dissociating molecules. Correlations between these fragment momenta, as well as the onset times of electron transfer reactions between them, indicate that each molecule can undergo neutral three-body photolysis. For CH2I2, the structural evolution of the neutral molecule was simultaneously characterized along the C–I and I–C–I coordinates, demonstrating the sensitivity of these measurements to nuclear motion along multiple degrees of freedom. [ABSTRACT FROM AUTHOR]

Published

2023

8. New aerodynamic lens injector for single particle diffractive imaging

Author

Roth, N, Horke, DA, Lübke, J, Samanta, AK, Estillore, AD, Worbs, L, Pohlman, N, Ayyer, K, Morgan, A, Fleckenstein, H, Domaracky, M, Erk, B, Passow, C, Correa, J, Yefanov, O, Barty, A, Bajt, S, Kirian, RA, Chapman, HN, Küpper, J, Roth, N, Horke, DA, Lübke, J, Samanta, AK, Estillore, AD, Worbs, L, Pohlman, N, Ayyer, K, Morgan, A, Fleckenstein, H, Domaracky, M, Erk, B, Passow, C, Correa, J, Yefanov, O, Barty, A, Bajt, S, Kirian, RA, Chapman, HN, and Küpper, J

Published

2024

9. Imaging Molecular Structure through Femtosecond Photoelectron Diffraction on Aligned and Oriented Gas-Phase Molecules

Author

Boll, R., Rouzee, A., Adolph, M., Anielski, D., Aquila, A., Bari, S., Bomme, C., Bostedt, C., Bozek, J. D., Chapman, H. N., Christensen, L., Coffee, R., Coppola, N., De, S., Decleva, P., Epp, S. W., Erk, B., Filsinger, F., Foucar, L., Gorkhover, T., Gumprecht, L., Hoemke, A., Holmegaard, L., Johnsson, P., Kienitz, J. S., Kierspel, T., Krasniqi, F., Kuehnel, K. -U., Maurer, J., Messerschmidt, M., Moshammer, R., Mueller, Nele L. M., Rudek, B., Savelyev, E., Schlichting, I., Schmidt, C., Scholz, F., Schorb, S., Schulz, J., Seltmann, J., Stener, M., Stern, S., Techert, S., Thogersen, J, Trippel, S., Viefhaus, J., Vrakking, M, Stapelfeldt, H., Kuepper, J., Ullrich, J., Rudenko, A., and Rolles, D.

Subjects

Physics - Atomic Physics

Abstract

This paper gives an account of our progress towards performing femtosecond time-resolved photoelectron diffraction on gas-phase molecules in a pump-probe setup combining optical lasers and an X-ray Free-Electron Laser. We present results of two experiments aimed at measuring photoelectron angular distributions of laser-aligned 1-ethynyl-4-fluorobenzene (C8H5F) and dissociating, laseraligned 1,4-dibromobenzene (C6H4Br2) molecules and discuss them in the larger context of photoelectron diffraction on gas-phase molecules. We also show how the strong nanosecond laser pulse used for adiabatically laser-aligning the molecules influences the measured electron and ion spectra and angular distributions, and discuss how this may affect the outcome of future time-resolved photoelectron diffraction experiments., Comment: 24 pages, 10 figures, Faraday Discussions 171

Published

2014

10. Time-resolved relaxation and fragmentation of polycyclic aromatic hydrocarbons investigated in the ultrafast XUV-IR regime

Author

Lee, J. W. L., Tikhonov, D. S., Chopra, P., Maclot, S., Steber, A. L., Gruet, S., Allum, F., Boll, R., Cheng, X., Düsterer, S., Erk, B., Garg, D., He, L., Heathcote, D., Johny, M., Kazemi, M. M., Köckert, H., Lahl, J., Lemmens, A. K., Loru, D., Mason, R., Müller, E., Mullins, T., Olshin, P., Passow, C., Peschel, J., Ramm, D., Rompotis, D., Schirmel, N., Trippel, S., Wiese, J., Ziaee, F., Bari, S., Burt, M., Küpper, J., Rijs, A. M., Rolles, D., Techert, S., Eng-Johnsson, P., Brouard, M., Vallance, C., Manschwetus, B., and Schnell, M.

Published

2021

11. Deep inner-shell multiphoton ionization by intense x-ray free-electron laser pulses

Author

Fukuzawa, H., Son, S. -K., Motomura, K., Mondal, S., Nagaya, K., Wada, S., Liu, X. -J., Feifel, R., Tachibana, T., Ito, Y., Kimura, M., Sakai, T., Matsunami, K., Hayashita, H., Kajikawa, J., Johnsson, P., Siano, M., Kukk, E., Rudek, B., Erk, B., Foucar, L., Robert, E., Miron, C., Tono, K., Inubushi, Y., Hatsui, T., Yabashi, M., Yao, M., Santra, R., and Ueda, K.

Subjects

Physics - Atomic Physics

Abstract

We have investigated multiphoton multiple ionization dynamics of argon and xenon atoms using a new x-ray free electron laser (XFEL) facility, SPring-8 Angstrom Compact free electron LAser (SACLA) in Japan, and identified that highly charged Xe ions with the charge state up to +26 are produced predominantly via four-photon absorption as well as highly charged Ar ions with the charge state up to +10 are produced via two-photon absorption at a photon energy of 5.5 keV. The absolute fluence of the XFEL pulse, needed for comparison between theory and experiment, has been determined using two-photon processes in the argon atom with the help of benchmark ab initio calculations. Our experimental results, in combination with a newly developed theoretical model for heavy atoms, demonstrate the occurrence of multiphoton absorption involving deep inner shells., Comment: 5 pages, 5 figures

Published

2012

12. Stimulated X-Ray Raman Scattering with Free-Electron Laser Sources

Author

Rohringer, N., Kimberg, V., Weninger, C., Sanchez-Gonzalez, A., Lutman, A., Maxwell, T., Bostedt, C., Carron Monterro, S., Lindahl, A. O., Ilchen, M., Coffee, R. N., Bozek, J. D., Krzywinski, J., Kierspel, T., Mullins, T., Küpper, J., Erk, B., Rolles, D., Mücke, O. D., London, R. A., Purvis, M., Ryan, D., Rocca, J. J., Feifel, R., Squibb, R., Zhaunerchyk, V., Såthe, C., Agåker, M., Mucke, M., Nordgren, J., Rubensson, J. E., Rocca, Jorge, editor, Menoni, Carmen, editor, and Marconi, Mario, editor

Published

2016

13. Femtosecond response of polyatomic molecules to ultra-intense hard X-rays

Author

Rudenko, A., Inhester, L., Hanasaki, K., Li, X., Robatjazi, S. J., Erk, B., Boll, R., Toyota, K., Hao, Y., Vendrell, O., Bomme, C., Savelyev, E., Rudek, B., Foucar, L., Southworth, S. H., Lehmann, C. S., Kraessig, B., Marchenko, T., Simon, M., Ueda, K., Ferguson, K. R., Bucher, M., Gorkhover, T., Carron, S., Alonso-Mori, R., Koglin, J. E., Correa, J., Williams, G. J., Boutet, S., Young, L., Bostedt, C., Son, S.-K., Santra, R., and Rolles, D.

Subjects

X-rays -- Physiological aspects, Femtosecond lasers -- Physiological aspects, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Author(s): A. Rudenko (corresponding author) [1]; L. Inhester [2, 3]; K. Hanasaki [2, 3, 4]; X. Li [1]; S. J. Robatjazi [1]; B. Erk [5]; R. Boll [5, 6]; K. [...]

Published

2017

14. Time-Resolved Single-Particle X-ray Scattering Reveals Electron-Density Gradients As Coherent Plasmonic-Nanoparticle-Oscillation Source

Author

Hoeing, D., Salzwedel, R., Worbs, L., Zhuang, Y., Samanta, A., Lübke, J., Estillore, A., Dlugolecki, K., Passow, C., Erk, B., Ekanayaje, N., Ramm, D., Correa, J., Papadooulou, C., Noor, A., Schulz, F., Selig, M., Knorr, A., Ayyer, K., Küpper, J., and Lange, H.

Abstract

Dynamics of optically excited plasmonic nanoparticles are presently understood as a series of scattering events involving the initiation of nanoparticle breathing oscillations. According to established models, these are caused by statistical heat transfer from thermalized electrons to the lattice. An additional contribution by hot-electron pressure accounts for phase mismatches between theory and experimental observations. However, direct experimental studies resolving the breathing-oscillation excitation are still missing. We used optical transient-absorption spectroscopy and time-resolved single-particle X-ray diffractive imaging to access the electron system and lattice. The time-resolved single-particle imaging data provided structural information directly on the onset of the breathing oscillation and confirmed the need for an additional excitation mechanism for thermal expansion. We developed a new model that reproduces all of our experimental observations. We identified optically induced electron density gradients as the initial driving source.

Published

2023

15. A localized view on molecular dissociation via electron-ion partial covariance

Author

Allum, F, Music, V, Inhester, L, Boll, R, Erk, B, Schmidt, P, Baumann, TM, Brenner, G, Burt, M, Demekhin, PV, Dörner, S, Ehresmann, A, Galler, A, Grychtol, P, Heathcote, D, Kargin, D, Larsson, M, Lee, JWL, Li, Z, Manschwetus, B, Marder, L, Mason, R, Meyer, M, Otto, H, Passow, C, Pietschnig, R, Ramm, D, Schubert, K, Schwob, L, Thomas, RD, Vallance, C, Vidanović, I, von Korff Schmising, C, Wagner, R, Walter, P, Zhaunerchyk, V, Rolles, D, Bari, S, Brouard, M, and Ilchen, M

Subjects

ddc:540

Abstract

Communications chemistry 5(1), 42 (2022). doi:10.1038/s42004-022-00656-w, Inner-shell photoelectron spectroscopy provides an element-specific probe of molecular structure, as core-electron binding energies are sensitive to the chemical environment. Short-wavelength femtosecond light sources, such as Free-Electron Lasers (FELs), even enable time-resolved site-specific investigations of molecular photochemistry. Here, we study the ultraviolet photodissociation of chiral (R/S)-1-iodo-2-methylbutane, probed by XUV pulses from the Free-electron LASer in Hamburg (FLASH) through the ultrafast evolution of the iodine 4d binding energy. Methodologically, we introduce electron-ion partial covariance imaging as a technique to isolate otherwise elusive features in a two-dimensional photoelectron spectrum arising from different photofragmentation pathways. The experimental and theoretical results for the time-resolved electron spectra of the 4d$_{3/2}$ and 4d$_{5/2}$ atomic and molecular levels that are disentangled by this method provide a key step towards studying structural and chemical changes from a specific spectator site. We thus pave the way for approaching femto-stereochemistry with FELs., Published by Macmillan Publishers Limited, part of Springer Nature, [London]

Published

2022

16. Fragmentation Dynamics of Fluorene Explored Using Ultrafast XUV-Vis Pump-Probe Spectroscopy

Author

Garg, D., Lee, J.W.L., Tikhonov, D.S., Chopra, P., Steber, A.L., Lemmens, A.K., Erk, B., Allum, F., Boll, R., Cheng, X., Düsterer, S., Gruet, S., He, L., Heathcote, D., Johny, M., Kazemi, M.M., Köckert, H., Lahl, J., Loru, D., Maclot, S., Mason, R., Müller, E., Mullins, T., Olshin, P., Passow, C., Peschel, J., Ramm, D., Rompotis, D., Trippel, S., Wiese, J., Ziaee, F., Bari, S., Burt, M., Küpper, J., Rijs, A.M., Rolles, D., Techert, S., Eng-Johnsson, P., Brouard, M., Vallance, C., Manschwetus, B., Schnell, M., Garg, D., Lee, J.W.L., Tikhonov, D.S., Chopra, P., Steber, A.L., Lemmens, A.K., Erk, B., Allum, F., Boll, R., Cheng, X., Düsterer, S., Gruet, S., He, L., Heathcote, D., Johny, M., Kazemi, M.M., Köckert, H., Lahl, J., Loru, D., Maclot, S., Mason, R., Müller, E., Mullins, T., Olshin, P., Passow, C., Peschel, J., Ramm, D., Rompotis, D., Trippel, S., Wiese, J., Ziaee, F., Bari, S., Burt, M., Küpper, J., Rijs, A.M., Rolles, D., Techert, S., Eng-Johnsson, P., Brouard, M., Vallance, C., Manschwetus, B., and Schnell, M.

Abstract

Contains fulltext : 251620.pdf (Publisher’s version ) (Open Access)

Published

2022

17. The kinetic energy of PAH dication and trication dissociation determined by recoil-frame covariance map imaging

Author

Lee, J. W. L., Tikhonov, D. S., Allum, F., Boll, R., Chopra, P., Erk, B., Gruet, S., He, L., Heathcote, D., Kazemi, M. M., Lahl, J., Lemmens, A. K., Loru, D., Maclot, Sylvain, Mason, R., Müller, E., Mullins, T., Passow, C., Peschel, J., Ramm, D., Steber, A. L., Bari, S., Brouard, M., Burt, M., Küpper, J., Eng-Johnsson, P., Rijs, A. M., Rolles, D., Vallance, C., Manschwetus, B., Schnell, M., Lee, J. W. L., Tikhonov, D. S., Allum, F., Boll, R., Chopra, P., Erk, B., Gruet, S., He, L., Heathcote, D., Kazemi, M. M., Lahl, J., Lemmens, A. K., Loru, D., Maclot, Sylvain, Mason, R., Müller, E., Mullins, T., Passow, C., Peschel, J., Ramm, D., Steber, A. L., Bari, S., Brouard, M., Burt, M., Küpper, J., Eng-Johnsson, P., Rijs, A. M., Rolles, D., Vallance, C., Manschwetus, B., and Schnell, M.

Abstract

We investigated the dissociation of dications and trications of three polycyclic aromatic hydrocarbons (PAHs), fluorene, phenanthrene, and pyrene. PAHs are a family of molecules ubiquitous in space and involved in much of the chemistry of the interstellar medium. In our experiments, ions are formed by interaction with 30.3 nm extreme ultraviolet (XUV) photons, and their velocity map images are recorded using a PImMS2 multi-mass imaging sensor. Application of recoil-frame covariance analysis allows the total kinetic energy release (TKER) associated with multiple fragmentation channels to be determined to high precision, ranging 1.94-2.60 eV and 2.95-5.29 eV for the dications and trications, respectively. Experimental measurements are supported by Born-Oppenheimer molecular dynamics (BOMD) simulations., QC 20230516

Published

2022

18. Fragmentation Dynamics of Fluorene Explored Using Ultrafast XUV-Vis Pump-Probe Spectroscopy

Author

Garg, D., primary, Lee, J. W. L., additional, Tikhonov, D. S., additional, Chopra, P., additional, Steber, A. L., additional, Lemmens, A. K., additional, Erk, B., additional, Allum, F., additional, Boll, R., additional, Cheng, X., additional, Düsterer, S., additional, Gruet, S., additional, He, L., additional, Heathcote, D., additional, Johny, M., additional, Kazemi, M. M., additional, Köckert, H., additional, Lahl, J., additional, Loru, D., additional, Maclot, S., additional, Mason, R., additional, Müller, E., additional, Mullins, T., additional, Olshin, P., additional, Passow, C., additional, Peschel, J., additional, Ramm, D., additional, Rompotis, D., additional, Trippel, S., additional, Wiese, J., additional, Ziaee, F., additional, Bari, S., additional, Burt, M., additional, Küpper, J., additional, Rijs, A. M., additional, Rolles, D., additional, Techert, S., additional, Eng-Johnsson, P., additional, Brouard, M., additional, Vallance, C., additional, Manschwetus, B., additional, and Schnell, M., additional

Published

2022

19. Resonance-enhanced x-ray multiple ionization of a polyatomic molecule

Author

Li, X., primary, Rudenko, A., additional, Mazza, T., additional, Rörig, A., additional, Anders, N., additional, Baumann, Th. M., additional, Eckart, S., additional, Erk, B., additional, De Fanis, A., additional, Fehre, K., additional, Dörner, R., additional, Foucar, L., additional, Grundmann, S., additional, Grychtol, P., additional, Hartung, A., additional, Hofmann, M., additional, Ilchen, M., additional, Janke, Ch., additional, Kastirke, G., additional, Kircher, M., additional, Kubicek, K., additional, Kunitski, M., additional, Meister, S., additional, Melzer, N., additional, Montano, J., additional, Music, V., additional, Nalin, G., additional, Ovcharenko, Y., additional, Passow, Ch., additional, Pier, A., additional, Rennhack, N., additional, Rist, J., additional, Rivas, D. E., additional, Schlichting, I., additional, Schmidt, L. Ph. H., additional, Schmidt, Ph., additional, Schöffler, M. S., additional, Siebert, J., additional, Strenger, N., additional, Trabert, D., additional, Trinter, F., additional, Vela-Perez, I., additional, Wagner, R., additional, Walter, P., additional, Weller, M., additional, Ziolkowski, P., additional, Czasch, A., additional, Meyer, M., additional, Jahnke, T., additional, Rolles, D., additional, and Boll, R., additional

Published

2022

20. Coulomb explosion imaging of small polyatomic molecules with ultrashort x-ray pulses

Author

Li, X., primary, Rudenko, A., additional, Schöffler, M. S., additional, Anders, N., additional, Baumann, Th. M., additional, Eckart, S., additional, Erk, B., additional, De Fanis, A., additional, Fehre, K., additional, Dörner, R., additional, Foucar, L., additional, Grundmann, S., additional, Grychtol, P., additional, Hartung, A., additional, Hofmann, M., additional, Ilchen, M., additional, Janke, Ch., additional, Kastirke, G., additional, Kircher, M., additional, Kubicek, K., additional, Kunitski, M., additional, Mazza, T., additional, Meister, S., additional, Melzer, N., additional, Montano, J., additional, Music, V., additional, Nalin, G., additional, Ovcharenko, Y., additional, Passow, Ch., additional, Pier, A., additional, Rennhack, N., additional, Rist, J., additional, Rivas, D. E., additional, Schlichting, I., additional, Schmidt, L. Ph. H., additional, Schmidt, Ph., additional, Siebert, J., additional, Strenger, N., additional, Trabert, D., additional, Trinter, F., additional, Vela-Perez, I., additional, Wagner, R., additional, Walter, P., additional, Weller, M., additional, Ziolkowski, P., additional, Czasch, A., additional, Rolles, D., additional, Meyer, M., additional, Jahnke, T., additional, and Boll, R., additional

Published

2022

21. Stimulated X-Ray Raman Scattering with Free-Electron Laser Sources

Author

Rohringer, N., primary, Kimberg, V., additional, Weninger, C., additional, Sanchez-Gonzalez, A., additional, Lutman, A., additional, Maxwell, T., additional, Bostedt, C., additional, Carron Monterro, S., additional, Lindahl, A. O., additional, Ilchen, M., additional, Coffee, R. N., additional, Bozek, J. D., additional, Krzywinski, J., additional, Kierspel, T., additional, Mullins, T., additional, Küpper, J., additional, Erk, B., additional, Rolles, D., additional, Mücke, O. D., additional, London, R. A., additional, Purvis, M., additional, Ryan, D., additional, Rocca, J. J., additional, Feifel, R., additional, Squibb, R., additional, Zhaunerchyk, V., additional, Såthe, C., additional, Agåker, M., additional, Mucke, M., additional, Nordgren, J., additional, and Rubensson, J. E., additional

Published

2015

22. High intensity femtosecond XUV pulse interactions with atomic clusters

Author

Hoffmann, K., Murphy, B., Erk, B., Helal, A., Kandadai, N., Keto, J., and Ditmire, T.

Published

2010

23. Pulse Energy and Pulse Duration Effects in the Ionization and Fragmentation of Iodomethane by Ultraintense Hard X Rays

Author

Li, X., primary, Inhester, L., additional, Robatjazi, S. J., additional, Erk, B., additional, Boll, R., additional, Hanasaki, K., additional, Toyota, K., additional, Hao, Y., additional, Bomme, C., additional, Rudek, B., additional, Foucar, L., additional, Southworth, S. H., additional, Lehmann, C. S., additional, Kraessig, B., additional, Marchenko, T., additional, Simon, M., additional, Ueda, K., additional, Ferguson, K. R., additional, Bucher, M., additional, Gorkhover, T., additional, Carron, S., additional, Alonso-Mori, R., additional, Koglin, J. E., additional, Correa, J., additional, Williams, G. J., additional, Boutet, S., additional, Young, L., additional, Bostedt, C., additional, Son, S.-K., additional, Santra, R., additional, Rolles, D., additional, and Rudenko, A., additional

Published

2021

24. New aerodynamic lens injector for single particle diffractive imaging

Author

Roth, N., Horke, D., Lübke, J., Samanta, A., Estillore, A., Worbs, L., Pohlman, N., Ayyer, K., Morgan, A., Fleckenstein, H., Domaracky, M., Erk, B., Passow, C., Correa, J., Yefanov, O., Barty, A., Bajt, S., Kirian, R., Chapman, H., and Küpper, J.

Subjects

Physics::Accelerator Physics, Physics::Optics

Abstract

An aerodynamic lens injector was developed specifically for the needs of single-particle diffractive imaging experiments at free-electron lasers. Its design allows for quick changes of injector geometries and focusing properties in order to optimize injection for specific individual samples. Here, we present results of its first use at the FLASH free-electron-laser facility. Recorded diffraction patterns of polystyrene spheres are modeled using Mie scattering, which allowed for the characterization of the particle beam under diffractive-imaging conditions and yield good agreement with particle-trajectory simulations.

Published

2020

25. Atomic absorption spectrometric determination of Fe(III) and Cr(III) in various samples after preconcentration by solid-phase extraction with pyridine-2-carbaldehyde thiosemicarbazone

Author

Baytak, S., Balaban, A., Türker, A. R., and Erk, B.

Published

2006

26. Ultrafast ionization and fragmentation dynamics of polycyclic atomatic hydrocarbons by XUV radiation

Author

Manschwetus, B., Chopra, P., Tikhonov, D., Köckert, H., Gruet, S., Lahl, J., Maclot, S., Peschel, J., Steber, A.L., Lee, J.W.L., Boll, R., Bari, S., Dörner, S., Allum, F., Erk, B., He, L., Passow, C., Rompotis, D., Lemmens, A.K., Mason, R., Heathcote, D., Burt, M., Wiese, J., Johny, M., Müller, E., Ziaee, F., Kazemi, M.M., Schirmel, N., Olshin, P., Cheng, X., Ramm, D., Trippel, S., Mullins, T., Rijs, A.M., Küpper, J., Vallence, C., Brouard, M., Rolles, D., Johnsson, P., Schnell, M., Manschwetus, B., Chopra, P., Tikhonov, D., Köckert, H., Gruet, S., Lahl, J., Maclot, S., Peschel, J., Steber, A.L., Lee, J.W.L., Boll, R., Bari, S., Dörner, S., Allum, F., Erk, B., He, L., Passow, C., Rompotis, D., Lemmens, A.K., Mason, R., Heathcote, D., Burt, M., Wiese, J., Johny, M., Müller, E., Ziaee, F., Kazemi, M.M., Schirmel, N., Olshin, P., Cheng, X., Ramm, D., Trippel, S., Mullins, T., Rijs, A.M., Küpper, J., Vallence, C., Brouard, M., Rolles, D., Johnsson, P., and Schnell, M.

Abstract

Contains fulltext : 227171.pdf (publisher's version ) (Open Access)

Published

2020

27. Effect of Schiff Bases Containing Pyridyl Group as Corrosion Inhibitors for Low Carbon Steel in 0.1 M HCl

Author

Yurt, A., Bereket, G., Kivrak, A., Balaban, A., and Erk, B.

Published

2005

28. Mapping Resonance Structures in Transient Core-Ionized Atoms

Author

Mazza, T., primary, Ilchen, M., additional, Kiselev, M. D., additional, Gryzlova, E. V., additional, Baumann, T. M., additional, Boll, R., additional, De Fanis, A., additional, Grychtol, P., additional, Montaño, J., additional, Music, V., additional, Ovcharenko, Y., additional, Rennhack, N., additional, Rivas, D. E., additional, Schmidt, Ph., additional, Wagner, R., additional, Ziolkowski, P., additional, Berrah, N., additional, Erk, B., additional, Johnsson, P., additional, Küstner-Wetekam, C., additional, Marder, L., additional, Martins, M., additional, Ott, C., additional, Pathak, S., additional, Pfeifer, T., additional, Rolles, D., additional, Zatsarinny, O., additional, Grum-Grzhimailo, A. N., additional, and Meyer, M., additional

Published

2020

29. Fractal morphology, imaging and mass spectrometry of single aerosol particles in flight

Author

Loh, N. D., Hampton, C. Y., Martin, A. V., Starodub, D., Sierra, R. G., Barty, A., Aquila, A., Schulz, J., Lomb, L., Steinbrener, J., Shoeman, R. L., Kassemeyer, S., Bostedt, C., Bozek, J., Epp, S. W., Erk, B., Hartmann, R., Rolles, D., Rudenko, A., Rudek, B., Foucar, L., Kimmel, N., Weidenspointner, G., Hauser, G., Holl, P., Pedersoli, E., Liang, M., Hunter, M. M., Gumprecht, L., Coppola, N., Wunderer, C., Graafsma, H., Maia, F. R. N. C., Ekeberg, T., Hantke, M., Fleckenstein, H., Hirsemann, H., Nass, K., White, T. A., Tobias, H. J., Farquar, G. R., Benner, W. H., Hau-Riege, S. P., Reich, C., Hartmann, A., Soltau, H., Marchesini, S., Bajt, S., Barthelmess, M., Bucksbaum, P., Hodgson, K. O., Strüder, L., Ullrich, J., Frank, M., Schlichting, I., Chapman, H. N., and Bogan, M. J.

Published

2012

30. Ultrafast ionization and fragmentation dynamics of polycyclic atomatic hydro-carbons by XUV radiation

Author

Manschwetus, B, primary, Chopra, P, additional, Tikhonov, D, additional, Köckert, H, additional, Gruet, S, additional, Lahl, J, additional, Maclot, S, additional, Peschel, J, additional, Steber, A L, additional, Lee, J W L, additional, Boll, R, additional, Bari, S, additional, Dörner, S, additional, Allum, F, additional, Erk, B, additional, He, Lanhai, additional, Passow, C, additional, Rompotis, D, additional, Lemmens, A, additional, Mason, R, additional, Heathcote, D, additional, Burt, M, additional, Wiese, J, additional, Johny, M, additional, Müller, E, additional, Ziaee, F, additional, Kazemi, M M, additional, Schirmel, N, additional, Olshin, P, additional, Cheng, X, additional, Ramm, D, additional, Trippel, S, additional, Mullins, T, additional, Rijs, A, additional, Küpper, J, additional, Vallence, C, additional, Brouard, M, additional, Rolles, D, additional, Johnsson, P, additional, and Schnell, M, additional

Published

2020

31. Ultrafast Structural Changes in Chiral Molecules Measured with Free-Electron Lasers

Author

Schmidt, P, primary, Music, V, additional, Hartmann, G, additional, Boll, R, additional, Erk, B, additional, Bari, S, additional, Allum, F, additional, Baumann, T M, additional, Brenner, G, additional, Brouard, M, additional, Burt, M, additional, Coffee, R, additional, Dörner, S, additional, Galler, A, additional, Grychtol, P, additional, Heathcote, D, additional, Inhester, L, additional, Kazemi, M, additional, Larsson, M, additional, Lee, J, additional, Li, Z, additional, Lutmann, A, additional, Manschwetus, B, additional, Marder, L, additional, Mason, R, additional, Moeller, S, additional, Osipov, T, additional, Otto, H, additional, Passow, C, additional, Rolles, D, additional, Rupprecht, P, additional, Schubert, K, additional, Schwob, L, additional, Thomas, R, additional, Vallance, C, additional, von Korff Schmising, C, additional, Wagner, R, additional, Walter, P, additional, Wolf, T J A, additional, Zhaunerchyk, V, additional, Meyer, M, additional, Ehresmann, A, additional, Knie, A, additional, Demekhin, Ph V, additional, and Ilchen, M, additional

Published

2020

32. The Small Quantum System (SQS) Instrument at European XFEL: Results of commissioning and first experiments

Author

Meyer, M, primary, Baumann, T M, additional, Achner, A, additional, Boll, R, additional, De Fanis, A, additional, Grychtol, P, additional, Ilchen, M, additional, Mazza, T, additional, Montaño, J, additional, Music, V, additional, Ovcharenko, Y, additional, Rennhack, N, additional, Rivas, D E, additional, Wagner, R, additional, Ziołkowski, P, additional, Rolles, D, additional, Walter, P, additional, Erk, B, additional, Keitel, B, additional, Plönjes, E, additional, Mann, K, additional, Lange, S, additional, Schäfer, B, additional, Chalupský, J, additional, Burian, T, additional, Juranova, K, additional, Vyšín, L, additional, Hájková, V, additional, and Juha, L, additional

Published

2020

33. X-ray spectroscopy on ultrafast-decaying core-excited atomic ions

Author

Ilchen, M, primary, Mazza, T, additional, Baumann, T M, additional, Boll, R, additional, De Fanis, A, additional, Grychtol, P, additional, Music, V, additional, Ovcharenko, Y, additional, Rivas, D, additional, Berrah, N, additional, Erk, B, additional, Gryzlova, E, additional, Johnsson, P, additional, Küstner-Wetekam, C, additional, Marder, L, additional, Martins, M, additional, Ott, Ch, additional, Pathak, S, additional, Pfeifer, Th, additional, Rolles, D, additional, Schmidt, P, additional, Grum-Grzhimailo, A, additional, and Meyer, M, additional

Published

2020

34. Two-color XUV plus NIR femtosecond photoionization of neon in the near-threshold region

Author

Duesterer, S., Hartmann, G., Bomme, C., Boll, R., Costello, J. T., Erk, B., De Fanis, A., Ilchen, M., Johnsson, P., Kelly, T. J., Manschwetus, B., Mazza, T., Meyer, M., Passow, C., Rompotis, D., Varvarezos, L., Kazansky, Andrey K., and Kabachnik, N. M.

Subjects

atomic photoionization, multiphoton two-color interaction, free-electron laser, photoelectron spectroscopy, ionization, flash, free-electron laser interactions, theoretical description, field, pulse, photoelectron

Abstract

Results of angle-resolved electron spectroscopy of near-threshold photoionization of Ne atoms by combined femtosecond extreme ultraviolet and near infrared fields are presented. The dressed-electron spectra show an energetic distribution into so-called sidebands, being separated by the photon energy of the dressing laser. Surprisingly, for the low kinetic energy (few eV) sidebands, the photoelectron energy varies as a function of the emission angle. Such behavior has not yet been observed in sideband creation and has not been predicted in commonly used theoretical descriptions such as strong field approximation and soft photon approach. Describing the photoionization with a time-dependent Schrodinger equation allows a qualitative description of the observed effect, as well as the prediction of fine structure in the sideband distribution. We want to acknowledge the work of the scientific and technical team at FLASH. We acknowledge the Max Planck Society for funding the development and the initial operation of the CAMP endstation within the Max Planck Advanced Study Group at CFEL and for providing this equipment for CAMP@FLASH. The installation of CAMP@FLASH was partially funded by the BMBF grants 05K10KT2, 05K13KT2, 05K16KT3 and 05K10KTB from FSP-302. NMK acknowledges hospitality and financial support from FS-DESY and from the theory group in cooperation with the SQS work package of European XFEL (Hamburg). The participation of the DCU group was made possible by Science Foundation Ireland grant nos. 12/IA/1742 and 16/RI/3696. PJ acknowledges support from the Swedish Research Council and the Swedish Foundation for Strategic Research. MI acknowledges funding by the Volkswagen Foundation within a Peter Paul Ewald-Fellowship. AKK acknowledges the support of the Spanish Ministerio de Economia y Competitividad (grants FIS2016-76617-P and FIS2016-76471-P).

Published

2019

35. Two-color XUV+NIR femtosecond photoionization of neon in the near-threshold region

Author

Duesterer, Stefan, Hartmann, G., Manschwetus, B., Mazza, T., Meyer, Michael, Passow, C., Rompotis, D., Varvarezos, L., Kazansky, A. K., Kabachnik, N. M., Bomme, C., Boll, Rebecca, Costello, J. T., Erk, B., De Fanis, A., Ilchen, Markus, Johnsson, P., and Kelly, T. J.

Subjects

Physics::Optics, ddc:530, Physics::Atomic Physics

Abstract

Results of angle-resolved electron spectroscopy of near-threshold photoionization of Ne atoms bycombined femtosecond extreme ultraviolet and near infraredfields are presented. The dressed-electron spectra show an energetic distribution into so-called sidebands, being separated by thephoton energy of the dressing laser. Surprisingly, for the low kinetic energy(few eV)sidebands, thephotoelectron energy varies as a function of the emission angle. Such behavior has not yet beenobserved in sideband creation and has not been predicted in commonly used theoretical descriptionssuch as strongfield approximation and soft photon approach. Describing the photoionization with atime-dependent Schrödinger equation allows a qualitative description of the observed effect, as well asthe prediction offine structure in the sideband distribution

Published

2019

36. Investigation on some Schiff bases as HCl corrosion inhibitors for carbon steel

Author

Yurt, A., Balaban, A., Kandemir, S.Ustün, Bereket, G., and Erk, B.

Published

2004

37. Two-color XUV plus NIR femtosecond photoionization of neon in the near-threshold region

Author

Física de materiales, Materialen fisika, Duesterer, S., Hartmann, G., Bomme, C., Boll, R., Costello, J. T., Erk, B., De Fanis, A., Ilchen, M., Johnsson, P., Kelly, T. J., Manschwetus, B., Mazza, T., Meyer, M., Passow, C., Rompotis, D., Varvarezos, L., Kazansky, Andrey K., Kabachnik, N. M., Física de materiales, Materialen fisika, Duesterer, S., Hartmann, G., Bomme, C., Boll, R., Costello, J. T., Erk, B., De Fanis, A., Ilchen, M., Johnsson, P., Kelly, T. J., Manschwetus, B., Mazza, T., Meyer, M., Passow, C., Rompotis, D., Varvarezos, L., Kazansky, Andrey K., and Kabachnik, N. M.

Abstract

Results of angle-resolved electron spectroscopy of near-threshold photoionization of Ne atoms by combined femtosecond extreme ultraviolet and near infrared fields are presented. The dressed-electron spectra show an energetic distribution into so-called sidebands, being separated by the photon energy of the dressing laser. Surprisingly, for the low kinetic energy (few eV) sidebands, the photoelectron energy varies as a function of the emission angle. Such behavior has not yet been observed in sideband creation and has not been predicted in commonly used theoretical descriptions such as strong field approximation and soft photon approach. Describing the photoionization with a time-dependent Schrodinger equation allows a qualitative description of the observed effect, as well as the prediction of fine structure in the sideband distribution.

Published

2019

38. Photodissociation of aligned CH3I and C6H3F2I molecules probed with time-resolved Coulomb explosion imaging by site-selective extreme ultraviolet ionization

Author

Amini, K, Savelyev, E, Brauße, F, Berrah, N, Bomme, C, Brouard, M, Burt, M, Christensen, L, Düsterer, S, Erk, B, Höppner, H, Kierspel, T, Krecinic, F, Lauer, A, Lee, JWL, Müller, M, Müller, E, Mullins, T, Redlin, H, Schirmel, N, Thøgersen, J, Techert, S, Toleikis, S, Treusch, R, Trippel, S, Ulmer, A, Vallance, C, Wiese, J, Johnsson, P, Küpper, J, Rudenko, A, Rouzée, A, Stapelfeldt, H, Rolles, D, and Boll, R

Subjects

ARTICLES, Physics::Atomic and Molecular Clusters, lcsh:QD901-999, lcsh:Crystallography, Physics::Chemical Physics, Experimental Methodologies

Abstract

We explore time-resolved Coulomb explosion induced by intense, extreme ultraviolet (XUV) femtosecond pulses from a free-electron laser as a method to image photo-induced molecular dynamics in two molecules, iodomethane and 2,6-difluoroiodobenzene. At an excitation wavelength of 267 nm, the dominant reaction pathway in both molecules is neutral dissociation via cleavage of the carbon–iodine bond. This allows investigating the influence of the molecular environment on the absorption of an intense, femtosecond XUV pulse and the subsequent Coulomb explosion process. We find that the XUV probe pulse induces local inner-shell ionization of atomic iodine in dissociating iodomethane, in contrast to non-selective ionization of all photofragments in difluoroiodobenzene. The results reveal evidence of electron transfer from methyl and phenyl moieties to a multiply charged iodine ion. In addition, indications for ultrafast charge rearrangement on the phenyl radical are found, suggesting that time-resolved Coulomb explosion imaging is sensitive to the localization of charge in extended molecules.

Published

2018

39. CAMP at FLASH An End Station for Imaging, Electron and Ion Spectroscopy, and Pump Probe Experiments at the FLASH Free Electron Laser

Author

Erk, B., Müller, J.P., Bomme, C., Boll, R., Brenner, G., Chapman, H., Correa, J., Düsterer, S., Dziarzhytski, S., Eisebitt, S., Graafsma, H., Grunewald, S., Gumprecht, L., Hartmann, R., Hauser, G., Keitel, B., von Korff Schmising, C., Kuhlmann, M., Manschwetus, B., Mercadier, L., Müller, E., Passow, Christopher., Ploenjes, E., Ramm, D., Rompotis, D., Rudenko, A., Rupp, D., Sauppe, M., Siewert, F., Schlosser, D., Strüder, L., Swiderski, A., Techert, S., Tiedtke, K., Tilp, T., Treusch, R., Schlichting, I., Ullrich, J., Moshammer, R., Möller, T., and Rolles, D.

Subjects

free electron laser, soft X rays, pump probe, electron ion spectrometers, imaging detector, micro focus, Kirkpatrick Baez mirrors, Physics::Instrumentation and Detectors, Physics::Accelerator Physics

Abstract

The non monochromatic beamline BL1 at the FLASH free electron laser facility at DESY was upgraded with new transport and focusing optics, and a new permanent end station, CAMP, was installed. This multi purpose instrument is optimized for electron and ion spectroscopy, imaging and pump probe experiments at free electron lasers. It can be equipped with various electronand ion spectrometers, along with large area single photon counting pnCCD X ray detectors, thus enabling a wide range of experiments from atomic, molecular, and cluster physics to material and energy science, chemistry and biology. Here, an overview of the layout, the beam transport and focusing capabilities, and the experimental possibilities of this new end station are presented, as well as results from its commissioning

Published

2018

40. Evidence of Extreme Ultraviolet Superfluorescence in Xenon

Author

Mercadier, L., primary, Benediktovitch, A., additional, Weninger, C., additional, Blessenohl, M. A., additional, Bernitt, S., additional, Bekker, H., additional, Dobrodey, S., additional, Sanchez-Gonzalez, A., additional, Erk, B., additional, Bomme, C., additional, Boll, R., additional, Yin, Z., additional, Majety, V. P., additional, Steinbrügge, R., additional, Khalal, M. A., additional, Penent, F., additional, Palaudoux, J., additional, Lablanquie, P., additional, Rudenko, A., additional, Rolles, D., additional, Crespo López-Urrutia, J. R., additional, and Rohringer, N., additional

Published

2019

41. Two-color XUV+NIR femtosecond photoionization of neon in the near-threshold region

Author

Düsterer, S, primary, Hartmann, G, additional, Bomme, C, additional, Boll, R, additional, Costello, J T, additional, Erk, B, additional, De Fanis, A, additional, Ilchen, M, additional, Johnsson, P, additional, Kelly, T J, additional, Manschwetus, B, additional, Mazza, T, additional, Meyer, M, additional, Passow, C, additional, Rompotis, D, additional, Varvarezos, L, additional, Kazansky, A K, additional, and Kabachnik, N M, additional

Published

2019

42. Rapid sample delivery for megahertz serial crystallography at X-ray FELs

Author

Wiedorn, MO, Awel, S, Morgan, AJ, Ayyer, K, Gevorkov, Y, Fleckenstein, H, Roth, N, Adriano, L, Bean, R, Beyerlein, KR, Chen, J, Coe, J, Cruz-Mazo, F, Ekeberg, T, Graceffa, R, Heymann, M, Horke, DA, Knoska, J, Mariani, V, Nazari, R, Oberthuer, D, Samanta, AK, Sierra, RG, Stan, CA, Yefanov, O, Rompotis, D, Correa, J, Erk, B, Treusch, R, Schulz, J, Hogue, BG, Ganan-Calvo, AM, Fromme, P, Kuepper, J, Rode, AV, Bajt, S, Kirian, RA, Chapman, HN, Wiedorn, MO, Awel, S, Morgan, AJ, Ayyer, K, Gevorkov, Y, Fleckenstein, H, Roth, N, Adriano, L, Bean, R, Beyerlein, KR, Chen, J, Coe, J, Cruz-Mazo, F, Ekeberg, T, Graceffa, R, Heymann, M, Horke, DA, Knoska, J, Mariani, V, Nazari, R, Oberthuer, D, Samanta, AK, Sierra, RG, Stan, CA, Yefanov, O, Rompotis, D, Correa, J, Erk, B, Treusch, R, Schulz, J, Hogue, BG, Ganan-Calvo, AM, Fromme, P, Kuepper, J, Rode, AV, Bajt, S, Kirian, RA, and Chapman, HN

Abstract

Liquid microjets are a common means of delivering protein crystals to the focus of X-ray free-electron lasers (FELs) for serial femtosecond crystallography measurements. The high X-ray intensity in the focus initiates an explosion of the microjet and sample. With the advent of X-ray FELs with megahertz rates, the typical velocities of these jets must be increased significantly in order to replenish the damaged material in time for the subsequent measurement with the next X-ray pulse. This work reports the results of a megahertz serial diffraction experiment at the FLASH FEL facility using 4.3 nm radiation. The operation of gas-dynamic nozzles that produce liquid microjets with velocities greater than 80 m s-1 was demonstrated. Furthermore, this article provides optical images of X-ray-induced explosions together with Bragg diffraction from protein microcrystals exposed to trains of X-ray pulses repeating at rates of up to 4.5 MHz. The results indicate the feasibility for megahertz serial crystallography measurements with hard X-rays and give guidance for the design of such experiments.

Published

2018

43. Coulomb-explosion imaging of concurrent photodissociation dynamics

Author

Burt, M, Boll, R, Lee, JWL, Amini, K, Köckert, H, Vallance, C, Gentleman, AS, Mackenzie, SR, Bari, S, Bomme, C, Düsterer, S, Erk, B, Manschwetus, B, Müller, E, Rompotis, D, Savelyev, E, Schirmel, N, Techert, S, Treusch, R, Küpper, J, Trippel, S, Wiese, J, Stapelfeldt, H, de Miranda, BC, Guillemin, R, Ismail, I, Journel, L, Marchenko, T, Palaudoux, J, Penent, F, Piancastelli, MN, Simon, M, Travnikova, O, Brausse, F, Goldsztejn, G, Rouzée, A, Géléoc, M, Geneaux, R, Ruchon, T, Underwood, J, Holland, DMP, Mereshchenko, AS, Olshin, PK, Johnsson, P, Maclot, S, Lahl, J, Rudenko, A, Ziaee, F, Brouard, M, and Rolles, D

Abstract

The dynamics following laser-induced molecular photodissociation of gas-phase CH2BrI at 271.6 nm were investigated by time-resolved Coulomb-explosion imaging using intense near-IR femtosecond laser pulses. The observed delay-dependent photofragment momenta reveal that CH2BrI undergoes C-I cleavage, depositing 65.6% of the available energy into internal product states, and that absorption of a second UV photon breaks the C-Br bond of CH2Br. Simulations confirm that this mechanism is consistent with previous data recorded at 248 nm, demonstrating the sensitivity of Coulomb-explosion imaging as a real-time probe of chemical dynamics.

Published

2017

44. Coupled motion of Xe clusters and quantum vortices in He nanodroplets

Author

Jones, CF, Jones, CF, Bernando, C, Tanyag, RMP, Bacellar, C, Ferguson, KR, Gomez, LF, Anielski, D, Belkacem, A, Boll, R, Bozek, J, Carron, S, Cryan, J, Englert, L, Epp, SW, Erk, B, Foucar, L, Hartmann, R, Neumark, DM, Rolles, D, Rudenko, A, Siefermann, KR, Weise, F, Rudek, B, Sturm, FP, Ullrich, J, Bostedt, C, Gessner, O, Vilesov, AF, Jones, CF, Jones, CF, Bernando, C, Tanyag, RMP, Bacellar, C, Ferguson, KR, Gomez, LF, Anielski, D, Belkacem, A, Boll, R, Bozek, J, Carron, S, Cryan, J, Englert, L, Epp, SW, Erk, B, Foucar, L, Hartmann, R, Neumark, DM, Rolles, D, Rudenko, A, Siefermann, KR, Weise, F, Rudek, B, Sturm, FP, Ullrich, J, Bostedt, C, Gessner, O, and Vilesov, AF

Abstract

Single He nanodroplets doped with Xe atoms are studied via ultrafast coherent x-ray diffraction imaging. The diffraction images show that rotating He nanodroplets about 200 nm in diameter contain a small number of symmetrically arranged quantum vortices decorated with Xe clusters. Unexpected large distances of the vortices from the droplet center (≈0.7-0.8 droplet radii) are explained by a significant contribution of the Xe dopants to the total angular momentum of the droplets and a stabilization of widely spaced vortex configurations by the trapped Xe clusters.

Published

2016

45. Single-shot diffraction data from the Mimivirus particle using an X-ray free-electron laser

Author

Ekeberg, T, Svenda, M, Seibert, MM, Abergel, C, Maia, FRNC, Seltzer, V, DePonte, DP, Aquila, A, Andreasson, J, Iwan, B, Jonsson, O, Westphal, D, Odic, D, Andersson, I, Barty, A, Liang, M, Martin, AV, Gumprecht, L, Fleckenstein, H, Bajt, S, Barthelmess, M, Coppola, N, Claverie, J-M, Loh, ND, Bostedt, C, Bozek, JD, Krzywinski, J, Messerschmidt, M, Bogan, MJ, Hampton, CY, Sierra, RG, Frank, M, Shoeman, RL, Lomb, L, Foucar, L, Epp, SW, Rolles, D, Rudenko, A, Hartmann, R, Hartmann, A, Kimmel, N, Holl, P, Weidenspointner, G, Rudek, B, Erk, B, Kassemeyer, S, Schlichting, I, Strueder, L, Ullrich, J, Schmidt, C, Krasniqi, F, Hauser, G, Reich, C, Soltau, H, Schorb, S, Hirsemann, H, Wunderer, C, Graafsma, H, Chapman, H, Hajdu, J, Ekeberg, T, Svenda, M, Seibert, MM, Abergel, C, Maia, FRNC, Seltzer, V, DePonte, DP, Aquila, A, Andreasson, J, Iwan, B, Jonsson, O, Westphal, D, Odic, D, Andersson, I, Barty, A, Liang, M, Martin, AV, Gumprecht, L, Fleckenstein, H, Bajt, S, Barthelmess, M, Coppola, N, Claverie, J-M, Loh, ND, Bostedt, C, Bozek, JD, Krzywinski, J, Messerschmidt, M, Bogan, MJ, Hampton, CY, Sierra, RG, Frank, M, Shoeman, RL, Lomb, L, Foucar, L, Epp, SW, Rolles, D, Rudenko, A, Hartmann, R, Hartmann, A, Kimmel, N, Holl, P, Weidenspointner, G, Rudek, B, Erk, B, Kassemeyer, S, Schlichting, I, Strueder, L, Ullrich, J, Schmidt, C, Krasniqi, F, Hauser, G, Reich, C, Soltau, H, Schorb, S, Hirsemann, H, Wunderer, C, Graafsma, H, Chapman, H, and Hajdu, J

Abstract

Free-electron lasers (FEL) hold the potential to revolutionize structural biology by producing X-ray pules short enough to outrun radiation damage, thus allowing imaging of biological samples without the limitation from radiation damage. Thus, a major part of the scientific case for the first FELs was three-dimensional (3D) reconstruction of non-crystalline biological objects. In a recent publication we demonstrated the first 3D reconstruction of a biological object from an X-ray FEL using this technique. The sample was the giant Mimivirus, which is one of the largest known viruses with a diameter of 450 nm. Here we present the dataset used for this successful reconstruction. Data-analysis methods for single-particle imaging at FELs are undergoing heavy development but data collection relies on very limited time available through a highly competitive proposal process. This dataset provides experimental data to the entire community and could boost algorithm development and provide a benchmark dataset for new algorithms.

Published

2016

46. Open data set of live cyanobacterial cells imaged using an X-ray laser

Author

van der Schot, G, Svenda, M, Maia, FRNC, Hantke, MF, DePonte, DP, Seibert, MM, Aquila, A, Schulz, J, Kirian, RA, Liang, M, Stellato, F, Bari, S, Iwan, B, Andreasson, J, Timneanu, N, Bielecki, J, Westphal, D, de Almeida, FN, Odic, D, Hasse, D, Carlsson, GH, Larsson, DSD, Barty, A, Martin, AV, Schorb, S, Bostedt, C, Bozek, JD, Carron, S, Ferguson, K, Rolles, D, Rudenko, A, Epp, SW, Foucar, L, Rudek, B, Erk, B, Hartmann, R, Kimmel, N, Holl, P, Englert, L, Loh, ND, Chapman, HN, Andersson, I, Hajdu, J, Ekeberg, T, van der Schot, G, Svenda, M, Maia, FRNC, Hantke, MF, DePonte, DP, Seibert, MM, Aquila, A, Schulz, J, Kirian, RA, Liang, M, Stellato, F, Bari, S, Iwan, B, Andreasson, J, Timneanu, N, Bielecki, J, Westphal, D, de Almeida, FN, Odic, D, Hasse, D, Carlsson, GH, Larsson, DSD, Barty, A, Martin, AV, Schorb, S, Bostedt, C, Bozek, JD, Carron, S, Ferguson, K, Rolles, D, Rudenko, A, Epp, SW, Foucar, L, Rudek, B, Erk, B, Hartmann, R, Kimmel, N, Holl, P, Englert, L, Loh, ND, Chapman, HN, Andersson, I, Hajdu, J, and Ekeberg, T

Abstract

Structural studies on living cells by conventional methods are limited to low resolution because radiation damage kills cells long before the necessary dose for high resolution can be delivered. X-ray free-electron lasers circumvent this problem by outrunning key damage processes with an ultra-short and extremely bright coherent X-ray pulse. Diffraction-before-destruction experiments provide high-resolution data from cells that are alive when the femtosecond X-ray pulse traverses the sample. This paper presents two data sets from micron-sized cyanobacteria obtained at the Linac Coherent Light Source, containing a total of 199,000 diffraction patterns. Utilizing this type of diffraction data will require the development of new analysis methods and algorithms for studying structure and structural variability in large populations of cells and to create abstract models. Such studies will allow us to understand living cells and populations of cells in new ways. New X-ray lasers, like the European XFEL, will produce billions of pulses per day, and could open new areas in structural sciences.

Published

2016

47. Ultrafast x-ray-induced nuclear dynamics in diatomic molecules using femtosecond x-ray-pump–x-ray-probe spectroscopy

Author

Lehmann, C. S., primary, Picón, A., additional, Bostedt, C., additional, Rudenko, A., additional, Marinelli, A., additional, Moonshiram, D., additional, Osipov, T., additional, Rolles, D., additional, Berrah, N., additional, Bomme, C., additional, Bucher, M., additional, Doumy, G., additional, Erk, B., additional, Ferguson, K. R., additional, Gorkhover, T., additional, Ho, P. J., additional, Kanter, E. P., additional, Krässig, B., additional, Krzywinski, J., additional, Lutman, A. A., additional, March, A. M., additional, Ray, D., additional, Young, L., additional, Pratt, S. T., additional, and Southworth, S. H., additional

Published

2016

48. Hetero-site-specific X-ray pump-probe spectroscopy for femtosecond intramolecular dynamics

Author

Picón, A., primary, Lehmann, C. S., additional, Bostedt, C., additional, Rudenko, A., additional, Marinelli, A., additional, Osipov, T., additional, Rolles, D., additional, Berrah, N., additional, Bomme, C., additional, Bucher, M., additional, Doumy, G., additional, Erk, B., additional, Ferguson, K. R., additional, Gorkhover, T., additional, Ho, P. J., additional, Kanter, E. P., additional, Krässig, B., additional, Krzywinski, J., additional, Lutman, A. A., additional, March, A. M., additional, Moonshiram, D., additional, Ray, D., additional, Young, L., additional, Pratt, S. T., additional, and Southworth, S. H., additional

Published

2016

49. Fragmentation Dynamics of Small Molecules upon Multiple Ionization by X-Ray Free-Electron Laser Pulses

Author

Erk, B.

Subjects

530 Physics, Physics::Atomic and Molecular Clusters

Abstract

The ionization and fragmentation dynamics of small molecules (CH3SeH, C2H5SeH, CH3I, and ICl) triggered by intense ultrashort soft X-ray pulses delivered by the Linac Coherent Light Source are investigated employing coincident three-dimensional ion momentum spectroscopy. This work aims at investigating the role of the molecular environment in multiple inner-shell photoionization and the accompanying electronic relaxation processes by studying molecular systems containing a single constituent of high nuclear charge Z, i.e. selenium or iodine, such that photoabsorption is almost exclusively localized at the core-shells of these heavy atoms. By comparing the level of ionization for the molecules containing selenium or iodine with results on isolated krypton and xenon atoms, signatures of efficient charge redistribution within the molecular environment are observed. Measured kinetic energies and angular distributions of the ionic fragments in comparison to the outcome of a simple Coulomb explosion model allow tracking down the evolution of the molecular geometry, revealing considerable displacement of the nuclei on the time scale of sequential multiple ionization. The results obtained have considerable implications for coherent diffractive imaging, providing a direct measure of radiation damage (displacement of nuclei and electronic rearrangement) on the time scale of the X-ray pulse and the length scale of the individual atoms.

Published

2013

50. Time-resolved protein nanocrystallography using an X-ray free-electron laser

Author

Aquila, A, Hunter, MS, Doak, RB, Kirian, RA, Fromme, P, White, TA, Andreasson, J, Arnlund, D, Bajt, S, Barends, TRM, Barthelmess, M, Bogan, MJ, Bostedt, C, Bottin, H, Bozek, JD, Caleman, C, Coppola, N, Davidsson, J, DePonte, DP, Elser, V, Epp, SW, Erk, B, Fleckenstein, H, Foucar, L, Frank, M, Fromme, R, Graafsma, H, Grotjohann, I, Gumprecht, L, Hajdu, J, Hampton, CY, Hartmann, A, Hartmann, R, Hauriege, S, Hauser, G, Hirsemann, H, Holl, P, Holton, JM, Homke, A, and Johansso

Published

2012