Your search keyword '"Ilchen M"' showing total 91 results

51. Optical-EUV Pump and Probe Experiments With Variable Polarization on the Newly Open LDM Beamline of FERMI@Elettra

Author

Finetti R. Borghes, P., Callegari, C., Lonza, M., Mahne, N., Nikolov, I., Pivetta, L., Plekan, O., Raimondi, L., Sigalotti, P., Svetina, C., Zangrando, D., Zangrando, Marco, Cinquegrana, P., Avaldi, L., Bolognesi, P., Coreno, M., O’Keeffe, P., DiFraia, M., Ilchen, M., Mazza, T., Meyer, Michael, Rafipoor, A. J., Ueda, Kiyoshi, Danailov, M. B., Demidovich, A. A., Fava, C., Gerusina, S., Grazioli, C., Ivanov, R., and Kurdi, G.

Abstract

Two color experiments are now available to users at the low-density matter beamline (LDM) operating at the Free Electron Laser (FEL) source FERMI@Elettra [1]. The seeded FEL method used at FERMI allows generation of high power, coherent pulses in the femtosecond regime, with a high level of shot-to-shot stability. Variable polarization is also available. LDM is dedicated to atomic, molecular and cluster physics. The LDM endstation,equipped with a velocity map imaging and a time-of-flight detector [2], is an ideal tool to characterize fast multiphoton processes. LDM was open to users in December 2012 and in February 2013 performed its firstpump and probe experiment on photoionization of atomic He and generation of spectral sidebands. The FERMI FEL-1 source, delivered EUV photons with several tens of microjoule per pulse (about 100 fs wide) in atunable wavelength range from 65 to 20 nm, while the 780 nm, optical pulses were from the same Ti:sapphire laser used to form the FEL seed pulse. This paper gives details about the pump and probe experimental setupand shows the straightforward use of the pump and probe data to measure the FEL pulse width.

Published

2013

52. Coherence Effects in the Valence Photoionization of Small Molecules

Author

Ilchen, M., Möller, Thomas, and Technische Universität Berlin, Fakultät II - Mathematik und Naturwissenschaften

Subjects

Photoionisation, Molecule, Doubleslit, Winkelverteilung, ddc:530, Doppelspalt, Molekül, Dissertation, 530 Physik, ARPES, Coherence, Photoionization, Kohärenz

Abstract

Kohärenzeffekte in der Valenz-Photoionisation kleiner Moleküle Die Untersuchung von Kohärenzeffekten in der Valenz-Photoionisation kleiner Moleküle ermöglicht Einblicke in molekulare Strukturen und Dynamiken und gibt dadurch Aufschluss über einige fundamentale quantenmechanische Prozesse. Der Schwerpunkt dieser Arbeit liegt auf derartigen Studien. Mittels Synchrotronstrahlung und der winkeldifferenzierenden Flugzeitanalyse von hierbei emittierten Photoelektronen werden molekulare Zwei-Zentren-Interferenzen für die Valenzelektronen der homonuklearen, diatomaren Moleküle N2 und O2 untersucht. Es wird gezeigt, dass durch die Inversionssymmetrie dieser Moleküle und die resultierende Unbestimmbarkeit des Emissionsortes der Photoelektronen Interferenzen auftreten. Die winkelaufgelöste Photoelektronenstudie in einem sehr großen Photonenenergiebereich von 20 bis 600 eV , die in dieser Arbeit vorgestellt wird, zeigt erstmalig sogenannte 'Cohen-Fano Oszillationen' in der Winkelverteilungsanisotropie. Es werden zudem weitere relevante Effekte der kohärenten Photoelektronenemission vorgestellt und im Lichte der gewonnenen experimentellen Daten analysiert. Eine energetisch hoch auflösende Studie von N2 und O2, besonders im niederenergetischen Photonenenergiebereich von 20 bis 50 eV, zeigt des Weiteren bisher unentdeckte Resonanzphänomene, die höchstwahrscheinlich verschiedenen Arten der Doppelanregung zuzuschreiben sind. Ausblickend wird eine Analyse für das polyatomare heteronukleare Molekül CH4 von 20 bis 300 eV vorgestellt, um eine Diskussion über molekulare Multi-Spalt-Systeme anzustoßen., Coherence Effects in the Valence Photoionization of Small Molecules Coherence effects in the valence photoionization of small molecules deliver insight into molecular structures and dynamics which in turn allow to unravel details of fundamental quantum mechanical processes. The work presented in this dissertation primarily deals with such investigations, using third generation synchrotron radiation. The applied technique is angle resolving photoelectron time-of-flight spectroscopy. It is shown that due to the inversion symmetry of homonuclear diatomic molecules like N2 and O2 an indistinguishability of the electrons and corresponding delocalization leads to interference pattern in the angular distribution anisotropy. Such two center interferences are determined in a wide photon energy range from 20 to 600 eV in the valence photoionization angular distribution anisotropy. The observed oscillations will be discussed in the light of the Cohen-Fano formalism. The relevant photoionization dynamics of the broad photon energy study will be discussed. In this context, a high energy resolution study of N2 and O2 is presented for the low photon energy region from 20 to 50 eV, showing hitherto unexplored resonance phenomena most likely originated by different types of doubly excited states. In order to initialize a discussion about more complex molecular multi-slit systems, an angle resolving study from 20 to 300 eV is presented for the heteronuclear polyatomic molecule CH4.

Published

2012

53. Optimization of an Effusive Gas Source with Direct Monte Carlo Simulation for Photoionization Studies

Author

Seltmann, J., Deinert, S., Glaser, L., Ilchen, M., Scholz, F., Walter, P., Viefhaus, J., Frühling, U., Arndt, B., Gaumnitz, T., and Drescher, M.

Published

2011

54. Auger electron and photoabsorption spectra of glycine in the vicinity of the oxygen K-edge measured with an X-FEL

Author

Sanchez-Gonzalez, A, primary, Barillot, T R, additional, Squibb, R J, additional, Kolorenč, P, additional, Agaker, M, additional, Averbukh, V, additional, Bearpark, M J, additional, Bostedt, C, additional, Bozek, J D, additional, Bruce, S, additional, Montero, S Carron, additional, Coffee, R N, additional, Cooper, B, additional, Cryan, J P, additional, Dong, M, additional, Eland, J H D, additional, Fang, L, additional, Fukuzawa, H, additional, Guehr, M, additional, Ilchen, M, additional, Johnsson, A S, additional, Liekhus-S, C, additional, Marinelli, A, additional, Maxwell, T, additional, Motomura, K, additional, Mucke, M, additional, Natan, A, additional, Osipov, T, additional, Östlin, C, additional, Pernpointner, M, additional, Petrovic, V S, additional, Robb, M A, additional, Sathe, C, additional, Simpson, E R, additional, Underwood, J G, additional, Vacher, M, additional, Walke, D J, additional, Wolf, T J A, additional, Zhaunerchyk, V, additional, Rubensson, J-E, additional, Berrah, N, additional, Bucksbaum, P H, additional, Ueda, K, additional, Feifel, R, additional, Frasinski, L J, additional, and Marangos, and J P, additional

Published

2015

55. Single Shot Polarization Characterization of XUV FEL Pulses from Crossed Polarized Undulators

Author

Ferrari, E., primary, Allaria, E., additional, Buck, J., additional, De Ninno, G., additional, Diviacco, B., additional, Gauthier, D., additional, Giannessi, L., additional, Glaser, L., additional, Huang, Z., additional, Ilchen, M., additional, Lambert, G., additional, Lutman, A. A., additional, Mahieu, B., additional, Penco, G., additional, Spezzani, C., additional, and Viefhaus, J., additional

Published

2015

56. Electron angular distributions of noble gases in sequential two-photon double ionization

Author

Braune, M., primary, Hartmann, G., additional, Ilchen, M., additional, Knie, A., additional, Lischke, T., additional, Reinköster, A., additional, Meissner, A., additional, Deinert, S., additional, Glaser, L., additional, Al-Dossary, O., additional, Ehresmann, A., additional, Kheifets, A.S., additional, and Viefhaus, J., additional

Published

2015

57. Sensitivity of nonlinear photoionization to resonance substructure in collective excitation

Author

Mazza, T., primary, Karamatskou, A., additional, Ilchen, M., additional, Bakhtiarzadeh, S., additional, Rafipoor, A. J., additional, O’Keeffe, P., additional, Kelly, T. J., additional, Walsh, N., additional, Costello, J. T., additional, Meyer, M., additional, and Santra, R., additional

Published

2015

58. Femtosecond all-optical synchronization of an X-ray free-electron laser

Author

Schulz, S., primary, Grguraš, I., additional, Behrens, C., additional, Bromberger, H., additional, Costello, J. T., additional, Czwalinna, M. K., additional, Felber, M., additional, Hoffmann, M. C., additional, Ilchen, M., additional, Liu, H. Y., additional, Mazza, T., additional, Meyer, M., additional, Pfeiffer, S., additional, Prędki, P., additional, Schefer, S., additional, Schmidt, C., additional, Wegner, U., additional, Schlarb, H., additional, and Cavalieri, A. L., additional

Published

2015

59. Polarization measurement of free electron laser pulses in the VUV generated by the variable polarization source FERMI

Author

Finetti, P., additional, Allaria, E., additional, Diviacco, B., additional, Callegari, C., additional, Mahieu, B., additional, Viefhaus, J., additional, Zangrando, M., additional, De Ninno, G., additional, Lambert, G., additional, Ferrari, E., additional, Buck, J., additional, Ilchen, M., additional, Vodungbo, B., additional, Mahne, N., additional, Svetina, C., additional, Spezzani, C., additional, Di Mitri, S., additional, Penco, G., additional, Trovò, M., additional, Fawley, W. M., additional, Rebernik, P., additional, Gauthier, D., additional, Grazioli, C., additional, Coreno, M., additional, Ressel, B., additional, Kivimäki, A., additional, Mazza, T., additional, Glaser, L., additional, Scholz, F., additional, Seltmann, J., additional, Gessler, P., additional, Grünert, J., additional, De Fanis, A., additional, Meyer, M., additional, Knie, A., additional, Moeller, S. P., additional, Raimondi, L., additional, Capotondi, F., additional, Pedersoli, E., additional, Plekan, O., additional, Danailov, M., additional, Demidovich, A., additional, Nikolov, I., additional, Abrami, A., additional, Gautier, J., additional, Lüning, J., additional, Zeitoun, P., additional, and Giannessi, L., additional

Published

2014

60. Angle-resolved study of resonant Auger decay and fluorescence emission processes after core excitations of the terminal and central nitrogen atoms inN2O

Author

Knie, A., primary, Ilchen, M., additional, Schmidt, Ph., additional, Reiß, Ph., additional, Ozga, C., additional, Kambs, B., additional, Hans, A., additional, Müglich, N., additional, Galitskiy, S. A., additional, Glaser, L., additional, Walter, P., additional, Viefhaus, J., additional, Ehresmann, A., additional, and Demekhin, Ph. V., additional

Published

2014

61. Determining the polarization state of an extreme ultraviolet free-electron laser beam using atomic circular dichroism

Author

Mazza, T., primary, Ilchen, M., additional, Rafipoor, A. J., additional, Callegari, C., additional, Finetti, P., additional, Plekan, O., additional, Prince, K. C., additional, Richter, R., additional, Danailov, M. B., additional, Demidovich, A., additional, De Ninno, G., additional, Grazioli, C., additional, Ivanov, R., additional, Mahne, N., additional, Raimondi, L., additional, Svetina, C., additional, Avaldi, L., additional, Bolognesi, P., additional, Coreno, M., additional, O'Keeffe, P., additional, Di Fraia, M., additional, Devetta, M., additional, Ovcharenko, Y., additional, Möller, Th., additional, Lyamayev, V., additional, Stienkemeier, F., additional, Düsterer, S., additional, Ueda, K., additional, Costello, J. T., additional, Kazansky, A. K., additional, Kabachnik, N. M., additional, and Meyer, M., additional

Published

2014

62. Angular Momentum Sensitive Two-Center Interference

Author

Ilchen, M., primary, Glaser, L., additional, Scholz, F., additional, Walter, P., additional, Deinert, S., additional, Rothkirch, A., additional, Seltmann, J., additional, Viefhaus, J., additional, Decleva, P., additional, Langer, B., additional, Knie, A., additional, Ehresmann, A., additional, Al-Dossary, O. M., additional, Braune, M., additional, Hartmann, G., additional, Meissner, A., additional, Tribedi, L. C., additional, AlKhaldi, M., additional, and Becker, U., additional

Published

2014

63. Electron angular distributions of noble gases in sequential two-photon double ionization.

Author

Braune, M., Hartmann, G., Ilchen, M., Knie, A., Lischke, T., Reinköster, A., Meissner, A., Deinert, S., Glaser, L., Al-Dossary, O., Ehresmann, A., Kheifets, A.S., and Viefhaus, J.

Subjects

ANGULAR distribution (Nuclear physics), KRYPTON, IONIZATION (Atomic physics), PHOTOELECTRONS, TIME-of-flight spectroscopy, ELECTRON energy states

Abstract

We present an angle resolved study of photoelectrons emitted from ions of the noble gases neon, argon and krypton by means of time-of-flight spectroscopy. The ionic targets are generated in a sequential two-photon process induced by the free-electron laser FLASH. Values of the anisotropy parametersandare derived from electron angular distribution measurements in the photon energy range from 38 to 91 eV and compared with recent theoretical calculations. [ABSTRACT FROM AUTHOR]

Published

2016

64. Time-of-flight photoemission spectroscopy from rare gases for non-invasive, pulse-to-pulse x-ray photon diagnostics at the European XFEL

Author

Buck, J., primary, Viefhaus, J., additional, Scholz, F., additional, Ilchen, M., additional, Glaser, L., additional, Özkan, C., additional, Freund, W., additional, Grünert, J., additional, and Molodtsov, S., additional

Published

2012

65. Using I-TOF spectrometry to measure photon energies at FELs

Author

Juranić, P N, primary, Martins, M, additional, Viefhaus, J, additional, Bonfigt, S, additional, Jahn, L, additional, Ilchen, M, additional, Klumpp, S, additional, and Tiedtke, K, additional

Published

2009

66. Polarization measurement of free electron laser pulses in the VUV generated by the variable polarization source FERMI

Author

Hau-Riege, Stefan P., Moeller, Stefan P., Yabashi, Makina, Finetti, P., Allaria, E., Diviacco, B., Callegari, C., Mahieu, B., Viefhaus, J., Zangrando, M., De Ninno, G., Lambert, G., Ferrari, E., Buck, J., Ilchen, M., Vodungbo, B., Mahne, N., Svetina, C., Spezzani, C., Di Mitri, S., Penco, G., Trovò, M., Fawley, W. M., Rebernik, P., Gauthier, D., Grazioli, C., Coreno, M., Ressel, B., Kivimäki, A., Mazza, T., Glaser, L., Scholz, F., Seltmann, J., Gessler, P., Grünert, J., De Fanis, A., Meyer, M., Knie, A., Moeller, S. P., Raimondi, L., Capotondi, F., Pedersoli, E., Plekan, O., Danailov, M., Demidovich, A., Nikolov, I., Abrami, A., Gautier, J., Lüning, J., Zeitoun, P., and Giannessi, L.

Published

2014

67. In-situ arrival time measurement during liquid-phase chemical experiments at X-ray free-electron laser sources.

Author

Diez, M., Galler, A., Hartmann, N., Schulz, S., Coffee, R. N., Heider, R., Helml, W., Ilchen, M., Wagner, M., Feurer, T., and Bressler, C.

Published

2018

68. Clocking Auger electrons

Author

Haynes, D. C., Wurzer, M., Schletter, A., Al-Haddad, A., Blaga, C., Bostedt, C., Bozek, J., Bromberger, H., Bucher, M., Camper, A., Carron, S., Coffee, R., Costello, J. T., DiMauro, L. F., Ding, Y., Ferguson, K., Grguras, I., Helml, W., Hoffmann, M. C., Ilchen, M., Jalas, S., Kabachnik, N. M., Kazansky, A. K., Kienberger, R., Maier, A. R., Maxwell, T., Mazza, T., Meyer, M., Park, H., Robinson, J., Roedig, C., Schlarb, H., Singla, R., Tellkamp, F., Walker, P. A., Zhang, K., Doumy, G., Behrens, C., and Cavalieri, A. L.

Subjects

spectroscopy, Astrophysics::High Energy Astrophysical Phenomena, Physics::Atomic and Molecular Clusters, excitation, core, Physics::Atomic Physics, time, double vacancies, laser, decay

Abstract

Intense X-ray free-electron lasers (XFELs) can rapidly excite matter, leaving it in inherently unstable states that decay on femtosecond timescales. The relaxation occurs primarily via Auger emission, so excited-state observations are constrained by Auger decay. In situ measurement of this process is therefore crucial, yet it has thus far remained elusive in XFELs owing to inherent timing and phase jitter, which can be orders of magnitude larger than the timescale of Auger decay. Here we develop an approach termed 'self-referenced attosecond streaking' that provides subfemtosecond resolution in spite of jitter, enabling time-domain measurement of the delay between photoemission and Auger emission in atomic neon excited by intense, femtosecond pulses from an XFEL. Using a fully quantum-mechanical description that treats the ionization, core-hole formation and Auger emission as a single process, the observed delay yields an Auger decay lifetime of 2.2(-0.3)(+0.2) fs for the KLL decay channel.

69. Experimental characterization of FEL Polarization control with cross polarized undulators

Author

Ferrari, E., Allaria, E., Buck, J., Ninno, G., Diviacco, B., Gauthier, D., Giannessi, L., Huang, Z., Ilchen, M., Lambert, G., Alberto Lutman, Mahieu, B., Penco, G., Spezzani, C., and Viefhaus, J.

70. Accurate prediction of X-ray pulse properties from a free-electron laser using machine learning

Author

Sanchez-Gonzalez, A., Micaelli, P., Olivier, C., Barillot, T. R., Ilchen, M., Lutman, A. A., Marinelli, A., Maxwell, T., Achner, A., Agåker, M., Berrah, N., Bostedt, C., Bozek, J. D., Buck, J., Bucksbaum, P. H., Montero, S. Carron, Cooper, B., Cryan, J. P., Dong, M., Feifel, R., Frasinski, L. J., Fukuzawa, H., Galler, A., Hartmann, G., Hartmann, N., Helml, W., Johnson, A. S., Knie, A., Lindahl, A. O., Liu, J., Motomura, K., Mucke, M., O’Grady, C., Rubensson, J-E, Simpson, E. R., Squibb, R. J., Såthe, C., Ueda, K., Vacher, M., Walke, D. J., Zhaunerchyk, V., Coffee, R. N., and Marangos, J. P.

Subjects

3. Good health

Abstract

Nature Communications 8, 15461 (2017). doi:10.1038/ncomms15461, Free-electron lasers providing ultra-short high-brightness pulses of X-ray radiation have great potential for a wide impact on science, and are a critical element for unravelling the structural dynamics of matter. To fully harness this potential, we must accurately know the X-ray properties: intensity, spectrum and temporal profile. Owing to the inherent fluctuations in free-electron lasers, this mandates a full characterization of the properties for each and every pulse. While diagnostics of these properties exist, they are often invasive and many cannot operate at a high-repetition rate. Here, we present a technique for circumventing this limitation. Employing a machine learning strategy, we can accurately predict X-ray properties for every shot using only parameters that are easily recorded at high-repetition rate, by training a model on a small set of fully diagnosed pulses. This opens the door to fully realizing the promise of next-generation high-repetition rate X-ray lasers., Published by Nature Publishing Group, London

71. Two-electron processes in multiple ionization under strong soft-x-ray radiation

Author

Ilchen, M., Mazza, T., Karamatskos, E. T., Markellos, D., Bakhtiarzadeh, S., Rafipoor, A. J., Kelly, T. J., Walsh, N., Costello, J. T., O'Keeffe, P., Gerken, N., Martins, M., Lambropoulos, P., and Meyer, M.

Subjects

7. Clean energy, 3. Good health

Abstract

Physical review / A covering atomic, molecular, and optical physics and quantum information 94(1), 013413(2016). doi:10.1103/PhysRevA.94.013413, In a combined experimental and theoretical study we have investigated the ionization of atomic argon upon irradiation with intense soft-x-ray pulses of 105 eV photon energy from the free-electron laser FLASH. The measured ion yields show charge states up to Ar$^{7+}$. The comparison with the theoretical study of the underlying photoionization dynamics highlights the importance of excited states in general and of processes governed by electron correlation in particular, namely, ionization with excitation and shake-off, processes usually inaccessible by measurements of ionic yields only. The Ar$^{7+}$ yield shows a clear deviation from the predictions of the commonly used model of sequential ionization via single-electron processes and the observed signal can only be explained by taking into account the full multiplet structure of the involved configurations and by inclusion of two-electron processes. The competing process of two-photon ionization from the ground state of Ar$^{6+}$ is calculated to be orders of magnitude smaller., Published by Inst., Woodbury, NY

72. Circular Dichroism in Multiphoton Ionization of Resonantly Excited He+ Ions.

Author

Ilchen, M., Douguet, N., Mazza, T., Rafipoor, A. J., Callegari, C., Finetti, P., Plekan, O., Prince, K. C., Demidovich, A., Grazioli, C., Avaldi, L., Bolognesi, P., Coreno, M., Di Fraia, M., Devetta, M., Ovcharenko, Y., Düsterer, S., Ueda, K., Bartschat, K., and Grum-Grzhimailo, A. N.

Subjects

*HELIUM ions, *MULTIPHOTON ionization, *CIRCULAR dichroism, SCATTERING

Abstract

Intense, circularly polarized extreme-ultraviolet and near-infrared (NIR) laser pulses are combined to double ionize atomic helium via the oriented intermediate He+ (3p) resonance state. Applying angle-resolved electron spectroscopy, we find a large photon helicity dependence of the spectrum and the angular distribution of the electrons ejected from the resonance by NIR multiphoton absorption. The measured circular dichroism is unexpectedly found to vary strongly as a function of the NIR intensity. The experimental data are well described by theoretical modeling and possible mechanisms are discussed. [ABSTRACT FROM AUTHOR]

Published

2017

73. Circular dichroism measurements at an x-ray free-electron laser with polarization control

Author

Ilchen, M. [SLAC National Accelerator Laboratory, 2575 Sand Hill Road, Menlo Park, California 94025, USA]

Published

2016

74. Single Shot Polarization Characterization of XUV FEL Pulses from Crossed Polarized Undulators

Author

Jens Buck, Enrico Allaria, David Gauthier, Bruno Diviacco, Leif Glaser, Markus Ilchen, Guillaume Lambert, Giuseppe Penco, Eugenio Ferrari, Alberto Lutman, Jens Viefhaus, Carlo Spezzani, Luca Giannessi, Benoît Mahieu, Zhirong Huang, G. De Ninno, ENEA C.R. Frascati, Via E. Fermi, 45, 00044 Frascati, Roma, Italy, affiliation inconnue, European XFEL GmbH, Laboratoire d'optique appliquée (LOA), École Nationale Supérieure de Techniques Avancées (ENSTA Paris)-École polytechnique (X)-Centre National de la Recherche Scientifique (CNRS), Elettra Sincrotrone Trieste, Giannessi, L., Ferrari, Eugenio, Allaria, E., Buck, J., DE NINNO, Giovanni, Diviacco, Bruno, Gauthier, D., Glaser, L., Huang, Z., Ilchen, M., Lambert, G., Lutman, A. A., Mahieu, B., Penco, G., Spezzani, C., and Viefhaus, J.

Subjects

High-gain antenna, Computer science, Synchrotron radiation, Bioinformatics, 01 natural sciences, Article, law.invention, SYNCHROTRON-RADIATION, Optics, FREE-ELECTRON LASER, law, 0103 physical sciences, Radial polarization, EXTREME-ULTRAVIOLET, 010306 general physics, BESSY, [PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics], Multidisciplinary, [PHYS.PHYS]Physics [physics]/Physics [physics], 010308 nuclear & particles physics, business.industry, Free-electron laser, Particle accelerator, Dichroism, Polarization (waves), Laser, DICHROISM, 3. Good health, Extreme ultraviolet, ddc:000, OPERATION, Degree of polarization, business, GENERATION

Abstract

Polarization control is a key feature of light generated by short-wavelength free-electron lasers. In this work, we report the first experimental characterization of the polarization properties of an extreme ultraviolet high gain free-electron laser operated with crossed polarized undulators. We investigate the average degree of polarization and the shot-to-shot stability and we analyze aspects such as existing possibilities for controlling and switching the polarization state of the emitted light. The results are in agreement with predictions based on Gaussian beams propagation.

Published

2015

75. Angular momentum sensitive two-center interference

Author

Markus Braune, André Knie, Jens Viefhaus, Jörn Seltmann, Frank Scholz, Arno Ehresmann, Sascha Deinert, Lokesh C. Tribedi, A. Rothkirch, Burkhard Langer, Markus Ilchen, G. Hartmann, M. Alkhaldi, Peter Walter, Piero Decleva, Uwe Becker, Omar M. Aldossary, A. Meissner, Leif Glaser, Ilchen, M, Glaser, L., Scholz, F., Walter, P., Deinert, S., Rothkirch, A., Seltmann, J., Viefhaus, J., Decleva, Pietro, Langer, B., Knie, A., Ehresmann, A., Al Dossary, O. M., Braune, M., Hartmann, G., Meissner, A., Tribedi, L. C., Alkhaldi, M., and Becker, U.

Subjects

Physics, Angular momentum, General Physics and Astronomy, Rotational transition, Photoionization, Homonuclear molecule, Physics and Astronomy (all), Total angular momentum quantum number, Angular momentum coupling, Angular momentum of light, Physics::Atomic and Molecular Clusters, ddc:550, Orbital angular momentum of light, Atomic physics

Abstract

In quantum mechanics the Young-type double-slit experiment can be performed with electrons either traveling through a double slit or being coherently emitted from two inversion symmetric molecular sites. In the latter one the valence photoionization cross sections of homonuclear diatomic molecules were predicted to oscillate over kinetic energy almost 50 years ago. Beyond the direct proof of the oscillatory behavior of these photoionization cross sections $\ensuremath{\sigma}$, we show that the angular distribution of the emitted electrons reveals hitherto unexplored information on the relative phase shift between the corresponding partial waves through two-center interference patterns.

Published

2014

76. Determining the polarization state of an extreme ultraviolet free-electron laser beam using atomic circular dichroism

Author

R. Ivanov, Markus Ilchen, A. J. Rafipoor, Y. Ovcharenko, Oksana Plekan, Frank Stienkemeier, M. Devetta, Carlo Callegari, Andrey K. Kazansky, Miltcho B. Danailov, Alexander Demidovich, Marcello Coreno, Cesare Grazioli, K. Ueda, Tommaso Mazza, Kevin C. Prince, Cristian Svetina, Robert Richter, Paola Bolognesi, Nikolay M. Kabachnik, Lorenzo Avaldi, Patrick O'Keeffe, Paola Finetti, M. Di Fraia, Lorenzo Raimondi, John Costello, V. Lyamayev, Nicola Mahne, T. Möller, G. De Ninno, S. Düsterer, Michael Meyer, Mazza, T., Ilchen, M., Rafipoor, A. J., Callegari, C., Finetti, P., Plekan, O., Prince, K. C., Richter, R., Danailov, M. B., Demidovich, A., De Ninno, G., Grazioli, C., Ivanov, R., Mahne, N., Raimondi, L., Svetina, C., Avaldi, L., Bolognesi, P., Coreno, M., O'Keeffe, P., DI FRAIA, Michele, Devetta, M., Ovcharenko, Y., Möller, T. h., Lyamayev, V., Stienkemeier, F., Düsterer, S., Ueda, K., Costello, J. T., Kazansky, A. K., Kabachnik, N. M., and Meyer, M.

Subjects

electron, Photon, ultrafast phenomena, Physics::Optics, General Physics and Astronomy, General Biochemistry, Genetics and Molecular Biology, FERMI, law.invention, Optics, law, Physics, Wavefront, FEL, polarization, Multidisciplinary, business.industry, Free-electron laser, General Chemistry, Laser, Polarization (waves), laser, circular dichroism, Extreme ultraviolet, Optoelectronics, business, Ultrashort pulse, Fermi Gamma-ray Space Telescope

Abstract

Ultrafast extreme ultraviolet and X-ray free-electron lasers are set to revolutionize many domains such as bio-photonics and materials science, in a manner similar to optical lasers over the past two decades. Although their number will grow steadily over the coming decade, their complete characterization remains an elusive goal. This represents a significant barrier to their wider adoption and hence to the full realization of their potential in modern photon sciences. Although a great deal of progress has been made on temporal characterization and wavefront measurements at ultrahigh extreme ultraviolet and X-ray intensities, only few, if any progress on accurately measuring other key parameters such as the state of polarization has emerged. Here we show that by combining ultra-short extreme ultraviolet free electron laser pulses from FERMI with near-infrared laser pulses, we can accurately measure the polarization state of a free electron laser beam in an elegant, non-invasive and straightforward manner using circular dichroism. © 2014 Macmillan Publishers Limited.

Published

2014

77. Circular dichroism in multiphoton ionization of resonantly excited helium ions near channel closing.

Author

Wagner R, Ilchen M, Douguet N, Schmidt P, Wieland N, Callegari C, Delk Z, Demidovich A, De Ninno G, Di Fraia M, Hofbrucker J, Manfredda M, Music V, Plekan O, Prince KC, Rivas DE, Zangrando M, Grum-Grzhimailo AN, Bartschat K, and Meyer M

Abstract

The circular dichroism (CD) of photoelectrons generated by near-infrared (NIR) laser pulses using multiphoton ionization of excited He + ions in the 3p(m= +1) state is investigated. The ions were prepared by circularly polarized extreme ultraviolet (XUV) pulses. For circularly polarized NIR pulses co- and counter-rotating relative to the polarization of the XUV pulse, a complex variation of the CD is observed as a result of intensity- and polarization-dependent Freeman resonances, with and without additional dichroic AC-Stark shifts. The experimental results are compared with numerical solutions of the time-dependent Schrödinger equation to identify and interpret the pronounced variation of the experimentally observed CD., (© 2024. The Author(s).)

Published

2024

78. Alternative Pathway to Double-Core-Hole States.

Author

Ismail I, Ferté A, Penent F, Guillemin R, Peng D, Marchenko T, Travnikova O, Inhester L, Taïeb R, Verma A, Velasquez N, Kukk E, Trinter F, Koulentianos D, Mazza T, Baumann TM, Rivas DE, Ovcharenko Y, Boll R, Dold S, De Fanis A, Ilchen M, Meyer M, Goldsztejn G, Li K, Doumy G, Young L, Sansone G, Dörner R, Piancastelli MN, Carniato S, Bozek JD, Püttner R, and Simon M

Abstract

Excited double-core-hole states of isolated water molecules resulting from the sequential absorption of two x-ray photons have been investigated. These states are formed through an alternative pathway, where the initial step of core ionization is accompanied by the shake-up of a valence electron, leading to the same final states as in the core-ionization followed by core-excitation pathway. The capability of the x-ray free-electron laser to deliver very intense, very short, and tunable light pulses is fully exploited to identify the two different pathways.

Published

2023

79. Multiple-core-hole resonance spectroscopy with ultraintense X-ray pulses.

Author

Rörig A, Son SK, Mazza T, Schmidt P, Baumann TM, Erk B, Ilchen M, Laksman J, Music V, Pathak S, Rivas DE, Rolles D, Serkez S, Usenko S, Santra R, Meyer M, and Boll R

Abstract

Understanding the interaction of intense, femtosecond X-ray pulses with heavy atoms is crucial for gaining insights into the structure and dynamics of matter. One key aspect of nonlinear light-matter interaction was, so far, not studied systematically at free-electron lasers-its dependence on the photon energy. Here, we use resonant ion spectroscopy to map out the transient electronic structures occurring during the complex charge-up pathways of xenon. Massively hollow atoms featuring up to six simultaneous core holes determine the spectra at specific photon energies and charge states. We also illustrate how different X-ray pulse parameters, which are usually intertwined, can be partially disentangled. The extraction of resonance spectra is facilitated by the possibility of working with a constant number of photons per X-ray pulse at all photon energies and the fact that the ion yields become independent of the peak fluence beyond a saturation point. Our study lays the groundwork for spectroscopic investigations of transient atomic species in exotic, multiple-core-hole states that have not been explored previously., (© 2023. Springer Nature Limited.)

Published

2023

80. Generation of Large Vortex-Free Superfluid Helium Nanodroplets.

Author

Ulmer A, Heilrath A, Senfftleben B, O'Connell-Lopez SMO, Kruse B, Seiffert L, Kolatzki K, Langbehn B, Hoffmann A, Baumann TM, Boll R, Chatterley AS, De Fanis A, Erk B, Erukala S, Feinberg AJ, Fennel T, Grychtol P, Hartmann R, Ilchen M, Izquierdo M, Krebs B, Kuster M, Mazza T, Montaño J, Noffz G, Rivas DE, Schlosser D, Seel F, Stapelfeldt H, Strüder L, Tiggesbäumker J, Yousef H, Zabel M, Ziołkowski P, Meyer M, Ovcharenko Y, Vilesov AF, Möller T, Rupp D, and Tanyag RMP

Abstract

Superfluid helium nanodroplets are an ideal environment for the formation of metastable, self-organized dopant nanostructures. However, the presence of vortices often hinders their formation. Here, we demonstrate the generation of vortex-free helium nanodroplets and explore the size range in which they can be produced. From x-ray diffraction images of xenon-doped droplets, we identify that single compact structures, assigned to vortex-free aggregation, prevail up to 10^{8} atoms per droplet. This finding builds the basis for exploring the assembly of far-from-equilibrium nanostructures at low temperatures.

Published

2023

81. Harmonic radiation contribution and X-ray transmission at the Small Quantum Systems instrument of European XFEL.

Author

Baumann TM, Boll R, De Fanis A, Grychtol P, Ilchen M, Jastrow UF, Kato M, Lechner C, Maltezopoulos T, Mazza T, Montaño J, Music V, Ovcharenko Y, Rennhack N, Rivas DE, Saito N, Schmidt P, Serkez S, Sorokin A, Usenko S, Yan J, Geloni G, Tanaka T, Tiedtke K, and Meyer M

Subjects

X-Rays, Radiography, Photons, Lasers, Synchrotrons

Abstract

Transmission measurements of the soft X-ray beamline to the Small Quantum Systems (SQS) scientific instrument at the SASE3 undulator of European XFEL are presented. Measurements are reported for a wide range of photon energies (650 eV to 2400 eV), using X-ray gas monitors as well as a bolometric radiometer. The results are in good agreement with simulations for the beam transport and show a transmission of up to 80% over the whole photon energy range. The contribution of second- and third-harmonic radiation of the soft X-ray undulator is determined at selected photon energies by performing transmission measurements using a gas absorber to provide variable attenuation of the incoming photon flux. A comparison of the results with semi-analytic calculations for the generation of free-electron laser pulses in the SASE3 undulator reveals an influence of apertures along the beam transport on the exact harmonic content to be accounted for at the experiment. The second-harmonic content is measured to be in the range of 0.1% to 0.3%, while the third-harmonic contributed a few percent to the SASE3 emission. For experiments at the SQS instrument, these numbers can be reduced through specific selections of the mirror reflection angles., (open access.)

Published

2023

82. The beam transport system for the Small Quantum Systems instrument at the European XFEL: optical layout and first commissioning results.

Author

Mazza T, Baumann TM, Boll R, De Fanis A, Grychtol P, Ilchen M, Montaño J, Music V, Ovcharenko Y, Rennhack N, Rivas DE, Rörig A, Schmidt P, Usenko S, Ziołkowski P, La Civita D, Vannoni M, Sinn H, Keitel B, Plönjes E, Jastrow UF, Sorokin A, Tiedtke K, Mann K, Schäfer B, Breckwoldt N, Son SK, and Meyer M

Abstract

The Small Quantum Systems instrument is one of the six operating instruments of the European XFEL, dedicated to the atomic, molecular and cluster physics communities. The instrument started its user operation at the end of 2018 after a commissioning phase. The design and characterization of the beam transport system are described here. The X-ray optical components of the beamline are detailed, and the beamline performances, transmission and focusing capabilities are reported. It is shown that the X-ray beam can be effectively focused as predicted by ray-tracing simulations. The impact of non-ideal X-ray source conditions on the focusing performances is discussed., (open access.)

Published

2023

83. Artificial intelligence for online characterization of ultrashort X-ray free-electron laser pulses.

Author

Dingel K, Otto T, Marder L, Funke L, Held A, Savio S, Hans A, Hartmann G, Meier D, Viefhaus J, Sick B, Ehresmann A, Ilchen M, and Helml W

Abstract

X-ray free-electron lasers (XFELs) as the world's brightest light sources provide ultrashort X-ray pulses with a duration typically in the order of femtoseconds. Recently, they have approached and entered the attosecond regime, which holds new promises for single-molecule imaging and studying nonlinear and ultrafast phenomena such as localized electron dynamics. The technological evolution of XFELs toward well-controllable light sources for precise metrology of ultrafast processes has been, however, hampered by the diagnostic capabilities for characterizing X-ray pulses at the attosecond frontier. In this regard, the spectroscopic technique of photoelectron angular streaking has successfully proven how to non-destructively retrieve the exact time-energy structure of XFEL pulses on a single-shot basis. By using artificial intelligence techniques, in particular convolutional neural networks, we here show how this technique can be leveraged from its proof-of-principle stage toward routine diagnostics even at high-repetition-rate XFELs, thus enhancing and refining their scientific accessibility in all related disciplines., (© 2022. The Author(s).)

Published

2022

84. High-resolution electron time-of-flight spectrometers for angle-resolved measurements at the SQS Instrument at the European XFEL.

Author

De Fanis A, Ilchen M, Achner A, Baumann TM, Boll R, Buck J, Danilevsky C, Esenov S, Erk B, Grychtol P, Hartmann G, Liu J, Mazza T, Montaño J, Music V, Ovcharenko Y, Rennhack N, Rivas D, Rolles D, Schmidt P, Sotoudi Namin H, Scholz F, Viefhaus J, Walter P, Ziółkowski P, Zhang H, and Meyer M

Abstract

A set of electron time-of-flight spectrometers for high-resolution angle-resolved spectroscopy was developed for the Small Quantum Systems (SQS) instrument at the SASE3 soft X-ray branch of the European XFEL. The resolving power of this spectrometer design is demonstrated to exceed 10 000 (E/ΔE), using the well known Ne 1s -1 3p resonant Auger spectrum measured at a photon energy of 867.11 eV at a third-generation synchrotron radiation source. At the European XFEL, a width of ∼0.5 eV full width at half-maximum for a kinetic energy of 800 eV was demonstrated. It is expected that this linewidth can be reached over a broad range of kinetic energies. An array of these spectrometers, with different angular orientations, is tailored for the Atomic-like Quantum Systems endstation for high-resolution angle-resolved spectroscopy of gaseous samples., (open access.)

Published

2022

85. Resonance-Enhanced Multiphoton Ionization in the X-Ray Regime.

Author

LaForge AC, Son SK, Mishra D, Ilchen M, Duncanson S, Eronen E, Kukk E, Wirok-Stoletow S, Kolbasova D, Walter P, Boll R, De Fanis A, Meyer M, Ovcharenko Y, Rivas DE, Schmidt P, Usenko S, Santra R, and Berrah N

Abstract

Here, we report on the nonlinear ionization of argon atoms in the short wavelength regime using ultraintense x rays from the European XFEL. After sequential multiphoton ionization, high charge states are obtained. For photon energies that are insufficient to directly ionize a 1s electron, a different mechanism is required to obtain ionization to Ar^{17+}. We propose this occurs through a two-color process where the second harmonic of the FEL pulse resonantly excites the system via a 1s→2p transition followed by ionization by the fundamental FEL pulse, which is a type of x-ray resonance-enhanced multiphoton ionization (REMPI). This resonant phenomenon occurs not only for Ar^{16+}, but also through lower charge states, where multiple ionization competes with decay lifetimes, making x-ray REMPI distinctive from conventional REMPI. With the aid of state-of-the-art theoretical calculations, we explain the effects of x-ray REMPI on the relevant ion yields and spectral profile.

Published

2021

86. Timing and X-ray pulse characterization at the Small Quantum Systems instrument of the European X-ray Free Electron Laser.

Author

Grychtol P, Rivas DE, Baumann TM, Boll R, De Fanis A, Erk B, Ilchen M, Liu J, Mazza T, Montaño J, Müller J, Music V, Ovcharenko Y, Rennhack N, Rouzé A, Schmidt P, Schulz S, Usenko S, Wagner R, Ziołkowski P, Schlarb H, Grünert J, Kabachnik N, and Meyer M

Abstract

This contribution presents the initial characterization of the pump-probe performance at the Small Quantum Systems (SQS) instrument of the European X-ray Free Electron Laser. It is demonstrated that time-resolved experiments can be performed by measuring the X-ray/optical cross-correlation exploiting the laser-assisted Auger decay in neon. Applying time-of-arrival corrections based on simultaneous spectral encoding measurements allow us to significantly improve the temporal resolution of this experiment. These results pave the way for ultrafast pump-probe investigations of gaseous media at the SQS instrument combining intense and tunable soft X-rays with versatile optical laser capabilities.

Published

2021

87. Multi-resolution electron spectrometer array for future free-electron laser experiments.

Author

Walter P, Kamalov A, Gatton A, Driver T, Bhogadi D, Castagna JC, Cheng X, Shi H, Obaid R, Cryan J, Helml W, Ilchen M, and Coffee RN

Abstract

The design of an angular array of electron time-of-flight (eToF) spectrometers is reported, intended for non-invasive spectral, temporal, and polarization characterization of single shots of high-repetition rate, quasi-continuous, short-wavelength free-electron lasers (FELs) such as the LCLS II at SLAC. This array also enables angle-resolved, high-resolution eToF spectroscopy to address a variety of scientific questions on ultrafast and nonlinear light-matter interactions at FELs. The presented device is specifically designed for the time-resolved atomic, molecular and optical science endstation (TMO) at LCLS II. In its final version, the spectrometer comprises up to 20 eToF spectrometers aligned to collect electrons from the interaction point, which is defined by the intersection of the incoming FEL radiation and a gaseous target. The full composition involves 16 spectrometers forming a circular equiangular array in the plane normal to the X-ray propagation and four spectrometers at 54.7° angle relative to the principle linear X-ray polarization axis with orientations in the forward and backward direction of the light propagation. The spectrometers are capable of independent and minimally chromatic electrostatic lensing and retardation, in order to enable simultaneous angle-resolved photo- and Auger-Meitner electron spectroscopy with high energy resolution. They are designed to ensure an energy resolution of 0.25 eV across an energy window of up to 75 eV, which can be individually centered via the adjustable retardation to cover the full range of electron kinetic energies relevant to soft X-ray methods, 0-2 keV. The full spectrometer array will enable non-invasive and online spectral-polarimetry measurements, polarization-sensitive attoclock spectroscopy for characterizing the full time-energy structure of SASE or seeded LCLS II pulses, and support emerging trends in molecular-frame spectroscopy measurements.

Published

2021

88. Site-specific interrogation of an ionic chiral fragment during photolysis using an X-ray free-electron laser.

Author

Ilchen M, Schmidt P, Novikovskiy NM, Hartmann G, Rupprecht P, Coffee RN, Ehresmann A, Galler A, Hartmann N, Helml W, Huang Z, Inhester L, Lutman AA, MacArthur JP, Maxwell T, Meyer M, Music V, Nuhn HD, Osipov T, Ray D, Wolf TJA, Bari S, Walter P, Li Z, Moeller S, Knie A, and Demekhin PV

Abstract

Short-wavelength free-electron lasers with their ultrashort pulses at high intensities have originated new approaches for tracking molecular dynamics from the vista of specific sites. X-ray pump X-ray probe schemes even allow to address individual atomic constituents with a 'trigger'-event that preludes the subsequent molecular dynamics while being able to selectively probe the evolving structure with a time-delayed second X-ray pulse. Here, we use a linearly polarized X-ray photon to trigger the photolysis of a prototypical chiral molecule, namely trifluoromethyloxirane (C 3 H 3 F 3 O), at the fluorine K-edge at around 700 eV. The created fluorine-containing fragments are then probed by a second, circularly polarized X-ray pulse of higher photon energy in order to investigate the chemically shifted inner-shell electrons of the ionic mother-fragment for their stereochemical sensitivity. We experimentally demonstrate and theoretically support how two-color X-ray pump X-ray probe experiments with polarization control enable XFELs as tools for chiral recognition., (© 2021. The Author(s).)

Published

2021

89. Electron-ion coincidence measurements of molecular dynamics with intense X-ray pulses.

Author

Li X, Inhester L, Osipov T, Boll R, Coffee R, Cryan J, Gatton A, Gorkhover T, Hartman G, Ilchen M, Knie A, Lin MF, Minitti MP, Weninger C, Wolf TJA, Son SK, Santra R, Rolles D, Rudenko A, and Walter P

Abstract

Molecules can sequentially absorb multiple photons when irradiated by an intense X-ray pulse from a free-electron laser. If the time delay between two photoabsorption events can be determined, this enables pump-probe experiments with a single X-ray pulse, where the absorption of the first photon induces electronic and nuclear dynamics that are probed by the absorption of the second photon. Here we show a realization of such a single-pulse X-ray pump-probe scheme on N[Formula: see text] molecules, using the X-ray induced dissociation process as an internal clock that is read out via coincident detection of photoelectrons and fragment ions. By coincidence analysis of the kinetic energies of the ionic fragments and photoelectrons, the transition from a bound molecular dication to two isolated atomic ions is observed through the energy shift of the inner-shell electrons. Via ab-initio simulations, we are able to map characteristic features in the kinetic energy release and photoelectron spectrum to specific delay times between photoabsorptions. In contrast to previous studies where nuclear motions were typically revealed by measuring ion kinetics, our work shows that inner-shell photoelectron energies can also be sensitive probes of nuclear dynamics, which adds one more dimension to the study of light-matter interactions with X-ray pulses.

Published

2021

90. Double Core-Hole Generation in O_{2} Molecules Using an X-Ray Free-Electron Laser: Molecular-Frame Photoelectron Angular Distributions.

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, Ueda K, Trinter F, Meyer M, Demekhin PV, and Jahnke T

Abstract

We report on a multiparticle coincidence experiment performed at the European X-ray Free-Electron Laser at the Small Quantum Systems instrument using a COLTRIMS reaction microscope. By measuring two ions and two electrons in coincidence, we investigate double core-hole generation in O_{2} molecules in the gas phase. Single-site and two-site double core holes have been identified and their molecular-frame electron angular distributions have been obtained for a breakup of the oxygen molecule into two doubly charged ions. The measured distributions are compared to results of calculations performed within the frozen- and relaxed-core Hartree-Fock approximations.

Published

2020

91. Commissioning of a photoelectron spectrometer for soft X-ray photon diagnostics at the European XFEL.

Author

Laksman J, Buck J, Glaser L, Planas M, Dietrich F, Liu J, Maltezopoulos T, Scholz F, Seltmann J, Hartmann G, Ilchen M, Freund W, Kujala N, Viefhaus J, and Grünert J

Subjects

Europe, Photons, Photoelectron Spectroscopy instrumentation, X-Rays

Abstract

Commissioning and first operation of an angle-resolved photoelectron spectrometer for non-invasive shot-to-shot diagnostics at the European XFEL soft X-ray beamline are described. The objective with the instrument is to provide the users and operators with reliable pulse-resolved information regarding photon energy and polarization that opens up a variety of applications for novel experiments but also hardware optimization.

Published

2019