Your search keyword '"Deinert, Sascha"' showing total 22 results

1. Interplay of protection and damage through intermolecular processes in the decay of electronic core holes in microsolvated organic molecules

Author

Bloß, Dana, Kryzhevoi, Nikolai V., Maurmann, Jonas, Schmidt, Philipp, Knie, André, Viehmann, Johannes H., Deinert, Sascha, Hartmann, Gregor, Küstner-Wetekam, Catmarna, Trinter, Florian, Cederbaum, Lorenz S., Ehresmann, Arno, Kuleff, Alexander I., and Hans, Andreas

Subjects

Physics - Chemical Physics, Physics - Atomic and Molecular Clusters

Abstract

Soft X-ray irradiation of molecules causes electronic core-level vacancies through photoelectronemission. In light elements, such as C, N, or O, which are abundant in the biosphere, these vacancies predominantly decay by Auger emission, leading inevitably to dissociative multiply charged states. It was recently demonstrated that an environment can prevent fragmentation of core-level-ionized small organic molecules through immediate non-local decay of the core hole, dissipating charge and energy to the environment. Here, we present an extended photoelectron-photoion-photoion coincidence (PEPIPICO) study of the biorelevant pyrimidine molecule embedded in a water cluster. It is observed and supported by theoretical calculations that the supposed protective effect of the environment is partially reversed if the vacancy is originally located at a water molecule. In this scenario, intermolecular energy or charge transfer from the core-ionized water environment to the pyrimidine molecule leads to ionization of the latter, however, presumably in non-dissociative cationic states. Our results contribute to a more comprehensive understanding of the complex interplay of protective and harmful effects of an environment in the photochemistry of microsolvated molecules exposed to X-rays.

Published

2024

2. Suppression of X-Ray-Induced Radiation Damage to Biomolecules in Aqueous Environments by Immediate Intermolecular Decay of Inner-Shell Vacancies

Author

Hans, Andreas, Schmidt, Philipp, Küstner-Wetekam, Catmarna, Trinter, Florian, Deinert, Sascha, Bloß, Dana, Viehmann, Johannes H., Schaf, Rebecca, Gerstel, Miriam, Saak, Clara M., Buck, Jens, Klumpp, Stephan, Hartmann, Gregor, Cederbaum, Lorenz S., Kryzhevoi, Nikolai V., and Knie, André

Subjects

Physics - Chemical Physics, Physics - Atomic Physics

Abstract

The predominant reason for the damaging power of high-energy radiation is multiple ionization of a molecule, either direct or via the decay of highly excited intermediates, as e.g., in the case of X-ray irradiation. Consequently, the molecule is irreparably damaged by the subsequent fragmentation in a Coulomb explosion. In an aqueous environment, however, it has been observed that irradiated molecules may be saved from fragmentation presumably by charge and energy dissipation mechanisms. Here, we show that the protective effect of the environment sets in even earlier than hitherto expected, namely immediately after single inner-shell ionization. By combining coincidence measurements of the fragmentation of X-ray-irradiated microsolvated pyrimidine molecules with theoretical calculations, we identify direct intermolecular electronic decay as the protective mechanism, outrunning the usually dominant Auger decay. Our results demonstrate that such processes play a key role in charge delocalization and have to be considered in investigations and models on high-energy radiation damage in realistic environments., Comment: 18 pages, 4 figures

Published

2021

3. Electronic Quantum Coherence in Glycine Molecules Probed with Ultrashort X-ray Pulses in Real Time

Author

Schwickert, David, Ruberti, Marco, Kolorenč, Přemys, Usenko, Sergey, Przystawik, Andreas, Baev, Karolin, Baev, Ivan, Braune, Markus, Bocklage, Lars, Czwalinna, Marie Kristin, Deinert, Sascha, Düsterer, Stefan, Hans, Andreas, Hartmann, Gregor, Haunhorst, Christian, Kuhlmann, Marion, Palutke, Steffen, Röhlsberger, Ralf, Rönsch-Schulenburg, Juliane, Schmidt, Philipp, Toleikis, Sven, Viefhaus, Jens, Martins, Michael, Knie, André, Kip, Detlef, Averbukh, Vitali, Marangos, Jon P., and Laarmann, Tim

Subjects

Physics - Chemical Physics, Physics - Optics, Quantum Physics

Abstract

Quantum coherence between electronic states of a photoionized molecule and the resulting process of ultrafast electron-hole migration have been put forward as a possible quantum mechanism of charge-directed reactivity governing the photoionization-induced molecular decomposition. Attosecond experiments based on the indirect (fragment ion-based) characterization of the proposed electronic phenomena suggest that the photoionization-induced electronic coherence can survive for tens of femtoseconds, while some theoretical studies predict much faster decay of the coherence due to the quantum uncertainty in the nuclear positions and the nuclear-motion effects. The open questions are: do long-lived electronic quantum coherences exist in complex molecules and can they be probed directly, i.e. via electronic observables? Here, we use x-rays both to create and to directly probe quantum coherence in the photoionized amino acid glycine. The outgoing photoelectron wave leaves behind a positively charged ion that is in a coherent superposition of quantum mechanical eigenstates lying within the ionizing pulse spectral bandwidth. Delayed x-ray pulses track the induced coherence through resonant x-ray absorption that induces Auger decay and by the photoelectron emission from sequential double photoionization. Sinusoidal temporal modulation of the detected signal at early times (0 - 25 fs) is observed in both measurements. Advanced ab initio many-electron simulations, taking into account the quantum uncertainty in the nuclear positions, allow us to explain the first 25 fs of the detected coherent quantum evolution in terms of the electronic coherence., Comment: 61 pages, 12 figures

Published

2020

4. Near-Edge Soft X-ray Absorption Mass Spectrometry of Protonated Melittin

Author

Egorov, Dmitrii, Bari, Sadia, Boll, Rebecca, Dörner, Simon, Deinert, Sascha, Techert, Simone, Hoekstra, Ronnie, Zamudio-Bayer, Vicente, Lindblad, Rebecka, Bülow, Christine, Timm, Martin, von Issendorff, Bernd, Lau, J. Tobias, and Schlathölter, Thomas

Published

2018

5. The Variable Polarization XUV Beamline P04 at PETRA III: Optics, mechanics and their performance

Author

Viefhaus, Jens, Scholz, Frank, Deinert, Sascha, Glaser, Leif, Ilchen, Markus, Seltmann, Jörn, Walter, Peter, and Siewert, Frank

Published

2013

6. Electronic quantum coherence in glycine molecules probed with ultrashort x-ray pulses in real time

Author

Schwickert, David, primary, Ruberti, Marco, additional, Kolorenč, Přemysl, additional, Usenko, Sergey, additional, Przystawik, Andreas, additional, Baev, Karolin, additional, Baev, Ivan, additional, Braune, Markus, additional, Bocklage, Lars, additional, Czwalinna, Marie Kristin, additional, Deinert, Sascha, additional, Düsterer, Stefan, additional, Hans, Andreas, additional, Hartmann, Gregor, additional, Haunhorst, Christian, additional, Kuhlmann, Marion, additional, Palutke, Steffen, additional, Röhlsberger, Ralf, additional, Rönsch-Schulenburg, Juliane, additional, Schmidt, Philipp, additional, Toleikis, Sven, additional, Viefhaus, Jens, additional, Martins, Michael, additional, Knie, André, additional, Kip, Detlef, additional, Averbukh, Vitali, additional, Marangos, Jon P., additional, and Laarmann, Tim, additional

Published

2022

7. Electronic quantum coherence in glycine molecules probed with ultrashort x ray pulses in real time

Author

Schwickert, David, Ruberti, Marco, Kolorenč, Přemysl, Usenko, Sergey, Przystawik, Andreas, Baev, Karolin, Baev, Ivan, Braune, Markus, Bocklage, Lars, Czwalinna, Marie Kristin, Deinert, Sascha, Düsterer, Stefan, Hans, Andreas, Hartmann, Gregor, Haunhorst, Christian, Kuhlmann, Marion, Palutke, Steffen, Röhlsberger, Ralf, Rönsch-Schulenburg, Juliane, Schmidt, Philipp, Toleikis, Sven, Viefhaus, Jens, Martins, Michael, Knie, André, Kip, Detlef, Averbukh, Vitali, Marangos, Jon P., and Laarmann, Tim

Subjects

Chemical Physics (physics.chem-ph), Quantum Physics, long-lived, nucleus, quantum mechanics, FOS: Physical sciences, tracks, coherence, Auger, X-ray, modulation, Physics - Chemical Physics, Physics::Atomic and Molecular Clusters, spectral, Physical sciences [FOS], ion, ddc:500, Quantum Physics (quant-ph), absorption, photoelectron, emission, x rays, probe quantum coherence, spectroscopy, dynamics, Physics - Optics, Optics (physics.optics)

Abstract

Science advances 8(22), eabn6848 (2022). doi:10.1126/sciadv.abn6848, Here, we use x-rays to create and probe quantum coherence in the photoionized amino acid glycine. The outgoing photoelectron leaves behind the cation in a coherent superposition of quantum mechanical eigenstates. Delayed x-ray pulses track the induced coherence through resonant x-ray absorption that induces Auger decay and by photoelectron emission from sequential double photoionization. Sinusoidal temporal modulation of the detected signal at early times (0-25 fs) is observed in both measurements. Advanced ab initio many-electron simulations allow us to explain the first 25 fs of the detected coherent quantum evolution in terms of the electronic coherence. In the kinematically complete x-ray absorption measurement we monitor its dynamics for a period of 175 fs and observe an evolving modulation that may implicate the coupling of electronic to vibronic coherence at longer time scales. Our experiment provides a direct support for the existence of long-lived electronic coherence in photoionized biomolecules., Published by Assoc., Washington, DC [u.a.]

Published

2022

8. Suppression of X-ray-Induced Radiation Damage to Biomolecules in Aqueous Environments by Immediate Intermolecular Decay of Inner-Shell Vacancies

Author

Hans, Andreas, primary, Schmidt, Philipp, additional, Küstner-Wetekam, Catmarna, additional, Trinter, Florian, additional, Deinert, Sascha, additional, Bloß, Dana, additional, Viehmann, Johannes H., additional, Schaf, Rebecca, additional, Gerstel, Miriam, additional, Saak, Clara M., additional, Buck, Jens, additional, Klumpp, Stephan, additional, Hartmann, Gregor, additional, Cederbaum, Lorenz S., additional, Kryzhevoi, Nikolai V., additional, and Knie, André, additional

Published

2021

9. Auger Electron Wave Packet Interferometry on Extreme Timescales with Coherent Soft xX-Rays

Author

Usenko, Sergey, Schwickert, David, Przystawik, Andreas, Baev, Karolin, Baev, Ivan, Braune, Markus, Bocklage, Lars, Czwalinna, Marie Kristin, Deinert, Sascha, Duesterer, Stefan, Hans, Andreas, Hartmann, Gregor, Haunhorst, Christian, Kuhlmann, Marion, Palutke, Steffen, Roehlsberger, Ralf, Roensch-Schulenburg, Juliane, Schmidt, Philipp, Skruszewicz, Slawomir, Toleikis, Sven, Viefhaus, Jens, Martins, Michael, Knie, Andre, Kip, Detlef, and Laarmann, Tim

Subjects

Physics::Atomic and Molecular Clusters, ddc:530

Abstract

Journal of physics / B 53(24), 244008 (2020). doi:10.1088/1361-6455/abc661, Wave packet interferometry provides benchmark information on light-induced electronic quantum states by monitoring their relative amplitudes and phases during coherent excitation, propagation,and decay. The relative phase control of soft x-ray pulse replicas on the single-digit attosecond timescale achieved in our experiments makes this method a powerful tool to probe ultrafast quantum phenomena such as the excitation of Auger shake-up states with sub-cycle precision. In this contribution we present first results obtained for different Auger decay channels upon generating L-shell vacancies in argon atoms using Michelson-type all-reflective interferometric autocorrelation at a central free-electron laser photon energy of 274.7 eV., Published by IOP Publ., Bristol

Published

2020

10. Auger electron wave packet interferometry on extreme timescales with coherent soft x-rays

Author

Usenko, Sergey, primary, Schwickert, David, additional, Przystawik, Andreas, additional, Baev, Karolin, additional, Baev, Ivan, additional, Braune, Markus, additional, Bocklage, Lars, additional, Czwalinna, Marie Kristin, additional, Deinert, Sascha, additional, Düsterer, Stefan, additional, Hans, Andreas, additional, Hartmann, Gregor, additional, Haunhorst, Christian, additional, Kuhlmann, Marion, additional, Palutke, Steffen, additional, Röhlsberger, Ralf, additional, Rönsch-Schulenburg, Juliane, additional, Schmidt, Philipp, additional, Skruszewicz, Slawomir, additional, Toleikis, Sven, additional, Viefhaus, Jens, additional, Martins, Michael, additional, Knie, André, additional, Kip, Detlef, additional, and Laarmann, Tim, additional

Published

2020

11. Interatomic resonant Auger effect in N2O

Author

Deinert, Sascha, primary, Schrodt, Alexander, additional, Hartmann, Gregor, additional, Achner, Alexander, additional, Artemyev, Anton N, additional, Ehresmann, Arno, additional, Hans, Andreas, additional, Ilchen, Markus, additional, Glaser, Leif, additional, Scholz, Frank, additional, Seltmann, Jörn, additional, Viefhaus, Jens, additional, Demekhin, Philipp V, additional, and Knie, André, additional

Published

2020

12. Inner-shell X-ray absorption spectra of the cationic series $\mathrm{NH_{y}}$$\mathrm{{^ +} ( y = 0–3)}$

Author

Bari, Sadia, Inhester, Ludger, Schubert, Kaja, Mertens, Karolin, Schunck, Jan O., Dörner, Simon, Deinert, Sascha, Schwob, Lucas, Schippers, Stefan, Müller, Alfred, Klumpp, Stephan, and Martins, Michael

Abstract

Physical chemistry, chemical physics 21, 16505 - 16514 (2019). doi:10.1039/C9CP02864A, Ion yields following X-ray absorption of the cationic series $\mathrm{NH_{y}}$$\mathrm{{^ +} ( y = 0–3)}$ were measured to identify the characteristic absorption resonances in the energy range of the atomic nitrogen K-edge. Significant changes in the position of the absorption resonances were observed depending on the number of hydrogen atoms bound to the central nitrogen atom. Configuration interaction (CI) calculations were performed to obtain line assignments in the frame of molecular group theory. To validate the calculations, our assignment for the atomic cation $N^+$, measured as a reference, was compared with published theoretical and experimental data., Published by RSC Publ., Cambridge

Published

2019

13. Inner-shell X-ray absorption spectra of the cationic series $\mathrm{NH_y^+ ( y = 0–3)}$

Author

Bari, Sadia, Inhester, Ludger, Schubert, Kaja, Mertens, Karolin, Schunck, Jan, Dörner, Simon, Deinert, Sascha, Schwob, Lucas, Schippers, Stefan, Mueller, Alfred, Klumpp, Stephan, and Martins, Michael

Subjects

ddc:540, Physics::Atomic and Molecular Clusters, Physics::Atomic Physics

Abstract

Physical chemistry, chemical physics 21(30), 16505-16514 (2019). doi:10.1039/C9CP02864A, Ion yields following X-ray absorption of the cationic series $\mathrm{NH_y^+ ( y = 0–3)}$ were measured to identify the characteristic absorption resonances in the energy range of the atomic nitrogen K-edge. Significant changes in the position of the absorption resonances were observed depending on the number of hydrogen atoms bound to the central nitrogen atom. Configuration interaction (CI) calculations were performed to obtain line assignments in the frame of molecular group theory. To validate the calculations, our assignment for the atomic cation N$^+$, measured as a reference, was compared with published theoretical and experimental data., Published by RSC Publ., Cambridge

Published

2019

14. Inner-shell X-ray absorption spectra of the cationic series NHy+ (y = 0–3)

Author

Bari, Sadia, primary, Inhester, Ludger, additional, Schubert, Kaja, additional, Mertens, Karolin, additional, Schunck, Jan O., additional, Dörner, Simon, additional, Deinert, Sascha, additional, Schwob, Lucas, additional, Schippers, Stefan, additional, Müller, Alfred, additional, Klumpp, Stephan, additional, and Martins, Michael, additional

Published

2019

15. Interatomic resonant Auger effect in N2O.

Author

Deinert, Sascha, Schrodt, Alexander, Hartmann, Gregor, Achner, Alexander, Artemyev, Anton N, Ehresmann, Arno, Hans, Andreas, Ilchen, Markus, Glaser, Leif, Scholz, Frank, Seltmann, Jörn, Viefhaus, Jens, Demekhin, Philipp V, and Knie, André

Subjects

*PHOTOIONIZATION, *CHARGE transfer, *ENERGY transfer, *AUGER effect, *ELECTRONIC structure

Abstract

The interatomic resonant Auger effect in N2O is investigated experimentally and theoretically. We observe variations of the ratio between the yields of 1s-photoionization of the central and terminal nitrogen atom in the photon energy range across the O 1s → π* excitation. The present ab initio calculations of electronic structure and dynamics attribute these variations to the Fano interference between the direct N 1s-photoionizations and the resonant O 1s → π* excitation followed by Auger decays into the respective core–shell continua. The theory reveals that this interatomic core–hole-transfer effect is governed entirely by an energy transfer mechanism, and not by charge transfer. [ABSTRACT FROM AUTHOR]

Published

2020

16. Inner-shell X-ray absorption spectra of the cationic series NHy+ (y = 0–3).

Author

Bari, Sadia, Inhester, Ludger, Schubert, Kaja, Mertens, Karolin, Schunck, Jan O., Dörner, Simon, Deinert, Sascha, Schwob, Lucas, Schippers, Stefan, Müller, Alfred, Klumpp, Stephan, and Martins, Michael

Abstract

Ion yields following X-ray absorption of the cationic series NHy+ (y = 0–3) were measured to identify the characteristic absorption resonances in the energy range of the atomic nitrogen K-edge. Significant changes in the position of the absorption resonances were observed depending on the number of hydrogen atoms bound to the central nitrogen atom. Configuration interaction (CI) calculations were performed to obtain line assignments in the frame of molecular group theory. To validate the calculations, our assignment for the atomic cation N+, measured as a reference, was compared with published theoretical and experimental data. [ABSTRACT FROM AUTHOR]

Published

2019

17. Ionic Solutions Probed by Resonant Inelastic X-ray Scattering

Author

Yin, Zhong, primary, Rajkovic, Ivan, additional, Thekku Veedu, Sreevidya, additional, Deinert, Sascha, additional, Raiser, Dirk, additional, Jain, Rohit, additional, Fukuzawa, Hironobu, additional, Wada, Shin-ichi, additional, Quevedo, Wilson, additional, Kennedy, Brian, additional, Schreck, Simon, additional, Pietzsch, Annette, additional, Wernet, Philippe, additional, Ueda, Kyoshi, additional, Föhlisch, Alexander, additional, and Techert, Simone, additional

Published

2015

18. Evidence for anisotropic final state interactions in the two-photon ionization of rare gases

Author

Braune, Markus, primary, Lischke, Toralf, additional, Meißner, André, additional, Ilchen, Markus, additional, Deinert, Sascha, additional, Viefhaus, Jens, additional, Knie, André, additional, and Becker, Uwe, additional

Published

2012

19. Oscillatory behavior of the valence photoionization properties of N2and O2due to coherent photoelectron emission from two sites

Author

Viefhaus, Jens, primary, Ilchen, Markus, additional, Deinert, Sascha, additional, Glaser, Leif, additional, Scholz, Frank, additional, Walter, Peter, additional, Braune, Markus, additional, Meißner, André, additional, Tribedi, Lokesh, additional, and Becker, Uwe, additional

Published

2012

20. Photoelectron angular distribution studies of the outer valence states of N2

Author

Ilchen, Markus, primary, Deinert, Sascha, additional, Glaser, Leif, additional, Scholz, Frank, additional, Seltmann, Jörn, additional, Walter, Peter, additional, and Viefhaus, Jens, additional

Published

2012

21. Oscillatory behavior of the valence photoionization properties of N2 and O2 due to coherent photoelectron emission from two sites.

Author

Viefhaus, Jens, Ilchen, Markus, Deinert, Sascha, Glaser, Leif, Scholz, Frank, Walter, Peter, Braune, Markus, Meißner, André, Tribedi, Lokesh, and Becker, Uwe

Published

2012

22. Inner-shell X-ray absorption spectra of the cationic series NH y + (y = 0-3).

Author

Bari S, Inhester L, Schubert K, Mertens K, Schunck JO, Dörner S, Deinert S, Schwob L, Schippers S, Müller A, Klumpp S, and Martins M

Abstract

Ion yields following X-ray absorption of the cationic series NH y + (y = 0-3) were measured to identify the characteristic absorption resonances in the energy range of the atomic nitrogen K-edge. Significant changes in the position of the absorption resonances were observed depending on the number of hydrogen atoms bound to the central nitrogen atom. Configuration interaction (CI) calculations were performed to obtain line assignments in the frame of molecular group theory. To validate the calculations, our assignment for the atomic cation N + , measured as a reference, was compared with published theoretical and experimental data.

Published

2019