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173 results on '"Pitzer, M."'

1. Fourfold Differential Photoelectron Circular Dichroism

Author

Fehre, K., Novikovskiy, N. M., Grundmann, S., Kastirke, G., Eckart, S., Trinter, F., Rist, J., Hartung, A., Trabert, D., Janke, C., Nalin, G., Pitzer, M., Zeller, S., Wiegandt, F., Weller, M., Kircher, M., Hofmann, M., Schmidt, L. Ph. H., Knie, A., Hans, A., Ltaief, L. Ben, Ehresmann, A., Berger, R., Fukuzawa, H., Ueda, K., Schmidt-Böcking, H., Williams, J. B., Jahnke, T., Dörner, R., Schöffer, M. S., and Demekhin, Ph. V.

Subjects
Physics - Atomic and Molecular Clusters
Abstract

We report on a joint experimental and theoretical study of photoelectron circular dichroism (PECD) in methyloxirane. By detecting O 1s-photoelectrons in coincidence with fragment ions, we deduce the molecule's orientation and photoelectron emission direction in the laboratory frame. Thereby, we retrieve a fourfold differential PECD clearly beyond 50%. This strong chiral asymmetry is reproduced by ab initio electronic structure calculations. Providing such a pronounced contrast makes PECD of fixed-in-space chiral molecules an even more sensitive tool for chiral recognition in the gas phase., Comment: 5 figures

Published
2021
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2. Closed-loop recycling of rare liquid samples for gas-phase experiments

Author

Fehre, K., Pitzer, M., Trinter, F., Berger, R., Schmidt-Böcking, A. Schießer H., Dörner, R., and Schöffler, M. S.

Subjects
Physics - Instrumentation and Detectors
Abstract

Many samples of current interest in molecular physics and physical chemistry exist in the liquid phase and are vaporized for the use in gas cells, diffuse gas targets or molecular gas jets. For some of these techniques the large sample consumption is a limiting factor. When rare, expensive molecules, such as chiral molecules or species with isotopic labels are used, wasting them in the exhaust line of the pumps is a quite expensive and inefficient approach. Therefore, we developed a closed-loop recycling system for molecules with vapor pressures below atmospheric pressure. Once filled, only a few valves have to be opened or closed and a cold trap must be moved. The recycling efficiency per turn exceeds 95 %., Comment: 5 pages, 4 figures

Published
2021
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3. A new route for enantio-sensitive structure determination by photoelectron scattering on molecules in the gas phase

Author

Fehre, K., Novikovskiy, N. M., Grundmann, S., Kastirke, G., Eckart, S., Trinter, F., Rist, J., Hartung, A., Trabert, D., Janke, Ch., Pitzer, M., Zeller, S., Wiegandt, F., Weller, M., Kircher, M., Nalin, G., Hofmann, M., Schmidt, L. Ph. H., Knie, A., Hans, A., Ltaief, L. Ben, Ehresmann, A., Berger, R., Fukuzawa, H., Ueda, K., Schmidt-Böcking, H., Williams, J. B., Jahnke, T., Dörner, R., Demekhin, Ph. V., and Schöffler, M. S.

Subjects
Physics - Chemical Physics, Physics - Applied Physics
Abstract

X-ray as well as electron diffraction are powerful tools for structure determination of molecules. Studies on randomly oriented molecules in the gas-phase address cases in which molecular crystals cannot be generated or the interaction-free molecular structure is to be addressed. Such studies usually yield partial geometrical information, such as interatomic distances. Here, we present a complementary approach, which allows obtaining insight to the structure, handedness and even detailed geometrical features of molecules in the gas phase. Our approach combines Coulomb explosion imaging, the information that is encoded in the molecular frame diffraction pattern of core-shell photoelectrons and ab initio computations. Using a loop-like analysis scheme we are able to deduce specific molecular coordinates with sensitivity even to the handedness of chiral molecules and the positions of individual atoms, as, e.g., protons., Comment: 13 pages, 3 figures

Published
2021
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4. Multiphoton Double Ionization of Helium at 394nm - a Fully Differential Experiment

Author

Henrichs, K., Eckart, S., Hartung, A., Trabert, D., Fehre, K., Rist, J., Sann, H., Pitzer, M., Richter, M., Kang, H., Schöffler, M. S., Kunitski, M., Jahnke, T., and Dörner, R.

Subjects
Physics - Atomic Physics
Abstract

We report on a kinematically complete experiment on strong field double ionization of helium using laser pulses with a wavelength of 394\,nm and intensities of $3.5-5.7\times10^{14}\,W/cm^2$. Our experiment reaches the most complete level of detail which previously has only been reached for single photon double ionization. We give an overview over the observables on many levels of integration, starting from the ratio of double to single ionization, the individual electron and ion momentum distributions over joint momentum and energy distributions to fully differential cross sections showing the correlated angular momentum distributions. Within the studied intensity range the ratio of double to single ionization changes from $2\times 10^{-4}$ to $1.5\times 10^{-3}$. We find the momentum distributions of the $\rm{He}^{2+}$ ions and the correlated two electron momentum distributions to vary substantially. Only at the highest intensity both electrons are emitted to the same direction while at the lowest intensity back-to-back emission dominates. The joint energy distribution of the electrons shows discrete structures from the energy quantization of the photon field which allows us to count the number of absorbed photons and thus access the parity of the final state. We find the energy of the individual electron to show a peak structure indicating a quantized sharing of the overall energy absorbed from the field. The joint angular momentum distributions of the two electrons show a highly directed emission of both electrons along the polarization axis as well as clear imprints of electron repulsion. They strongly change with the energy sharing between the electrons. The aspect of selection rules in double ionization which are also visible in the presented dataset has been subject to a preceding publication [1]., Comment: 10 pages, 13 figures, submitted to PRA

Published
2018
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5. Direct observation of interatomic Coulombic decay and subsequent ion-atom scattering in helium nanodroplets

Author

Wiegandt, F., Trinter, F., Henrichs, K., Metz, D., Pitzer, M., Waitz, M., Maalouf, E. Jabbour al, Janke, C., Rist, J., Wechselberger, N., Miteva, T., Kazandjian, S., Schöffler, M., Sisourat, N., Jahnke, T., and Dörner, R.

Subjects
Physics - Atomic and Molecular Clusters
Abstract

We report on the experimental observation of interatomic Coulombic decay (ICD) in pure $^4$He nanoclusters of mean sizes between $N \approx$ 5000 and 30000 and the subsequent scattering of energetic He$^+$ fragments inside the neutral cluster by using cold target recoil ion momentum spectroscopy. ICD is induced in He clusters by using vacuum ultraviolet light of $h\nu =$ 67 eV from the BESSY II synchrotron. The electronic decay creates two neighboring ions in the cluster at a well-defined distance. The measured fragment energies and angular correlations show that a main energy loss mechanism of these ions inside the cluster is a single hard binary collision with one atom of the cluster., Comment: 6 pages, 4 figures

Published
2018
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6. Imaging the square of the correlated two-electron wave function of a hydrogen molecule

Author

Waitz, M., Bello, R. Y., Metz, D., Lower, J., Trinter, F., Schober, C., Keiling, M., Lenz, U., Pitzer, M., Mertens, K., Martins, M., Viefhaus, J., Klumpp, S., Weber, T., Schmidt, L. Ph. H., Williams, J. B., Schöffler, M. S., Serov, V. V., Kheifets, A. S., Argenti, L., Palacios, A., Martin, F., Jahnke, T., and Dörner, R.

Subjects
Physics - Atomic Physics, Physics - Atomic and Molecular Clusters
Abstract

The toolbox for imaging molecules is well-equipped today. Some techniques visualize the geometrical structure, others the electron density or electron orbitals. Molecules are many-body systems for which the correlation between the constituents is decisive and the spatial and the momentum distribution of one electron depends on those of the other electrons and the nuclei. Such correlations have escaped direct observation by imaging techniques so far. Here, we implement an imaging scheme which visualizes correlations between electrons by coincident detection of the reaction fragments after high energy photofragmentation. With this technique, we examine the H2 two-electron wave function in which electron-electron correlation beyond the mean-field level is prominent. We visualize the dependence of the wave function on the internuclear distance. High energy photoelectrons are shown to be a powerful tool for molecular imaging. Our study paves the way for future time resolved correlation imaging at FELs and laser based X-ray sources., Comment: 10 pages, 5 figures

Published
2018
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7. Experimental Evidence for Selection Rules in Multiphoton Double Ionization of Helium

Author

Henrichs, K., Eckart, S., Hartung, A., Trabert, D., Rist, J., Sann, H., Pitzer, M., Richter, M., Kang, H., Schöffler, M. S., Kunitski, M., Jahnke, T., and Dörner, R.

Subjects
Physics - Atomic Physics
Abstract

We report on the observation of phase space modulations in the correlated electron emission after strong field double ionization of helium using laser pulses with a wavelength of 394~nm and an intensity of $3\cdot10^{14}$W/cm$^2$. Those modulations are identified as direct results of quantum mechanical selection rules predicted by many theoretical calculations. They only occur for an odd number of absorbed photons. By that we attribute this effect to the parity of the continuum wave function., Comment: 5 pages, 3 figures, submitted to Phys. Rev. Lett

Published
2017
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9. Publisher Correction: Imaging the square of the correlated two-electron wave function of a hydrogen molecule.

Author

Waitz, M, Bello, RY, Metz, D, Lower, J, Trinter, F, Schober, C, Keiling, M, Lenz, U, Pitzer, M, Mertens, K, Martins, M, Viefhaus, J, Klumpp, S, Weber, T, Schmidt, L Ph H, Williams, JB, Schöffler, MS, Serov, VV, Kheifets, AS, Argenti, L, Palacios, A, Martín, F, Jahnke, T, and Dörner, R

Abstract

The original version of this Article contained an error in the fifth sentence of the first paragraph of the 'Application on H2' section of the Results, which incorrectly read 'The role of electron correlation is quite apparent in this presentation: Fig. 1a is empty for the uncorrelated Hartree-Fock wave function, since projection of the latter wave function onto the 2pσu orbital is exactly zero, while this is not the case for the fully correlated wave function (Fig. 1d); also, Fig. 1b, c for the uncorrelated description are identical, while Fig. 1e, f for the correlated case are significantly different.' The correct version replaces 'Fig. 1e, f' with 'Fig. 2e and f'.

Published
2018

10. Two-particle interference of electron pairs on a molecular level

Author

Waitz, M., Metz, D., Lower, J., Schober, C., Keiling, M., Pitzer, M., Mertens, K., Martins, M., Viefhaus, J., Klumpp, S., Weber, T., Schmidt-Böcking, H., Schmidt, L. Ph. H., Morales, F., Miyabe, S., Rescigno, T. N., McCurdy, C. W., Martin, F., Williams, J. B., Schöffler, M. S., Jahnke, T., and Dörner, R.

Subjects
Physics - Atomic Physics, Physics - Atomic and Molecular Clusters, Quantum Physics
Abstract

We investigate the photo-doubleionization of $H_2$ molecules with 400 eV photons. We find that the emitted electrons do not show any sign of two-center interference fringes in their angular emission distributions if considered separately. In contrast, the quasi-particle consisting of both electrons (i.e. the "dielectron") does. The work highlights the fact that non-local effects are embedded everywhere in nature where many-particle processes are involved.

Published
2016
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11. Imaging the He$_2$ quantum halo state using a free electron laser

Author

Zeller, S., Kunitski, M., Voigtsberger, J., Kalinin, A., Schottelius, A., Schober, C., Waitz, M., Sann, H., Hartung, A., Bauer, T., Pitzer, M., Trinter, F., Goihl, C., Janke, C., Richter, M., Kastirke, G., Weller, M., Czasch, A., Kitzler, M., Braune, M., Grisenti, R. E., Schöllkopf, W., Schmidt, L. Ph. H., Schöffer, M., Williams, J. B., Jahnke, T., and Dörner, R.

Subjects
Physics - Atomic Physics, Nuclear Experiment, Physics - Atomic and Molecular Clusters, Physics - Chemical Physics
Abstract

We report on coulomb explosion imaging of the wavefunction of the quantum halo system He$_2$. Each atom of this system is ionized by tunnelionization in a femto second laser pulse and in a second experiment by single photon ionization employing a free electron laser. We visualize the exponential decay of the probability density of the tunneling particle over distance for over two orders of magnitude up to an internuclear distance of 250 {\AA}. By fitting the slope of the density in the tunneling regime we obtain a binding energy of 151.9 $\pm$ 13.3 neV, which is in agreement with most recent calculations., Comment: 11 pages, 5 figures

Published
2016
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12. Imaging the square of the correlated two-electron wave function of a hydrogen molecule.

Author

Waitz, M, Bello, RY, Metz, D, Lower, J, Trinter, F, Schober, C, Keiling, M, Lenz, U, Pitzer, M, Mertens, K, Martins, M, Viefhaus, J, Klumpp, S, Weber, T, Schmidt, L Ph H, Williams, JB, Schöffler, MS, Serov, VV, Kheifets, AS, Argenti, L, Palacios, A, Martín, F, Jahnke, T, and Dörner, R

Subjects
Biomedical Imaging
Abstract

The toolbox for imaging molecules is well-equipped today. Some techniques visualize the geometrical structure, others the electron density or electron orbitals. Molecules are many-body systems for which the correlation between the constituents is decisive and the spatial and the momentum distribution of one electron depends on those of the other electrons and the nuclei. Such correlations have escaped direct observation by imaging techniques so far. Here, we implement an imaging scheme which visualizes correlations between electrons by coincident detection of the reaction fragments after high energy photofragmentation. With this technique, we examine the H2 two-electron wave function in which electron-electron correlation beyond the mean-field level is prominent. We visualize the dependence of the wave function on the internuclear distance. High energy photoelectrons are shown to be a powerful tool for molecular imaging. Our study paves the way for future time resolved correlation imaging at FELs and laser based X-ray sources.

Published
2017

13. Agreement at last: an experimental and theoretical study on the single ionization of helium by fast proton impact

Author

Gassert, H., Chuluunbaatar, O., Waitz, M., Trinter, F., Kim, H. -K., Bauer, T., Laucke, A., Müller, Ch., Voigtsberger, J., Weller, M., Rist, J., Pitzer, M., Zeller, S., Jahnke, T., Schmidt, L. Ph. H., Williams, J. B., Zaytsev, S. A., Bulychev, A. A., Kouzakov, K. A., Schmidt-Böcking, H., Dörner, R., Popov, Yu. V., and Schöffler, M. S.

Subjects
Physics - Atomic Physics
Abstract

Even though ion/atom-collision is a mature field of atomic physics great discrepancies between experiment and theoretical calculations are still common. Here we present experimental results with highest momentum resolution on single ionization of helium induced by 1\,MeV protons and compare these to different theoretical calculations. The overall agreement is strikingly good and already the first Born approximation yields good agreement between theory and experiment. This has been expected since several decades, but so far has not been accomplished. The influence of projectile coherence effects on the measured data is shortly discussed in line with an ongoing dispute on the existence of nodal structures in the electron angular emission distributions., Comment: 15 pages, 4 figures

Published
2015
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14. Two-Particle Interference of Electron Pairs on a Molecular Level

Author

Waitz, M, Metz, D, Lower, J, Schober, C, Keiling, M, Pitzer, M, Mertens, K, Martins, M, Viefhaus, J, Klumpp, S, Weber, T, Schmidt-Böcking, H, Schmidt, L Ph H, Morales, F, Miyabe, S, Rescigno, TN, McCurdy, CW, Martín, F, Williams, JB, Schöffler, MS, Jahnke, T, and Dörner, R

Subjects
Atomic, Molecular and Optical Physics, Physical Sciences, physics.atom-ph, physics.atm-clus, quant-ph, Mathematical Sciences, Engineering, General Physics, Mathematical sciences, Physical sciences
Abstract

We investigate the photodouble ionization of H_{2} molecules with 400 eV photons. We find that the emitted electrons do not show any sign of two-center interference fringes in their angular emission distributions if considered separately. In contrast, the quasiparticle consisting of both electrons (i.e., the "dielectron") does. The work highlights the fact that nonlocal effects are embedded everywhere in nature where many-particle processes are involved.

Published
2016

15. Interatomic-Coulombic-decay-induced recapture of photoelectrons in helium dimers

Author

Burzynski, P., Trinter, F., Williams, J. B., Weller, M., Waitz, M., Pitzer, M., Voigtsberger, J., Schober, C., Kastirke, G., Müller, C., Goihl, C., Wiegandt, F., Wallauer, R., Kalinin, A., Schmidt, L. Ph. H., Schöffler, M., Schiwietz, G., Sisourat, N., Jahnke, T., and Dörner, R.

Subjects
Physics - Atomic and Molecular Clusters
Abstract

We investigate the onset of photoionization shakeup induced interatomic Coulombic decay (ICD) in He2 at the He+*(n = 2) threshold by detecting two He+ ions in coincidence. We find this threshold to be shifted towards higher energies compared to the same threshold in the monomer. The shifted onset of ion pairs created by ICD is attributed to a recapture of the threshold photoelectron after the emission of the faster ICD electron., Comment: 5 Pages, 2 Figures

Published
2014
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16. Vibrationally Resolved Decay Width of Interatomic Coulombic Decay in HeNe

Author

Trinter, F., Williams, J. B., Weller, M., Waitz, M., Pitzer, M., Voigtsberger, J., Schober, C., Kastirke, G., Müller, C., Goihl, C., Burzynski, P., Wiegandt, F., Wallauer, R., Kalinin, A., Schmidt, L. Ph. H., Schöffler, M. S., Chiang, Y. -C., Gokhberg, K., Jahnke, T., and Dörner, R.

Subjects
Physics - Atomic and Molecular Clusters, Physics - Atomic Physics
Abstract

We investigate the ionization of HeNe from below the He 1s3p excitation to the He ionization threshold. We observe HeNe$^+$ ions with an enhancement by more than a factor of 60 when the He side couples resonantly to the radiation field. These ions are an experimental proof of a two-center resonant photoionization mechanism predicted by Najjari et al. [Phys. Rev. Lett. 105, 153002 (2010)]. Furthermore, our data provide electronic and vibrational state resolved decay widths of interatomic Coulombic decay (ICD) in HeNe dimers. We find that the ICD lifetime strongly increases with increasing vibrational state., Comment: 7 pages, 5 figures

Published
2013
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17. A measurement of the evolution of Interatomic Coulombic Decay in the time domain

Author

Trinter, F., Williams, J. B., Weller, M., Waitz, M., Pitzer, M., Voigtsberger, J., Schober, C., Kastirke, G., Müller, C., Goihl, C., Burzynski, P., Wiegandt, F., Bauer, T., Wallauer, R., Sann, H., Kalinin, A., Schmidt, L. Ph. H., Schöffler, M., Sisourat, N., and Jahnke, T.

Subjects
Physics - Atomic Physics, Physics - Atomic and Molecular Clusters
Abstract

During the last 15 years a novel decay mechanism of excited atoms has been discovered and investigated. This so called ''Interatomic Coulombic Decay'' (ICD) involves the chemical environment of the electronically excited atom: the excitation energy is transferred (in many cases over long distances) to a neighbor of the initially excited particle usually ionizing that neighbor. It turned out that ICD is a very common decay route in nature as it occurs across van-der-Waals and hydrogen bonds. The time evolution of ICD is predicted to be highly complex, as its efficiency strongly depends on the distance of the atoms involved and this distance typically changes during the decay. Here we present the first direct measurement of the temporal evolution of ICD using a novel experimental approach., Comment: 6 pages, 4 figures, submitted to PRL

Published
2013
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19. Fourfold Differential Photoelectron Circular Dichroism

Author

Fehre, K., primary, Novikovskiy, N. M., additional, Grundmann, S., additional, Kastirke, G., additional, Eckart, S., additional, Trinter, F., additional, Rist, J., additional, Hartung, A., additional, Trabert, D., additional, Janke, C., additional, Nalin, G., additional, Pitzer, M., additional, Zeller, S., additional, Wiegandt, F., additional, Weller, M., additional, Kircher, M., additional, Hofmann, M., additional, Schmidt, L. Ph. H., additional, Knie, A., additional, Hans, A., additional, Ltaief, L. Ben, additional, Ehresmann, A., additional, Berger, R., additional, Fukuzawa, H., additional, Ueda, K., additional, Schmidt-Böcking, H., additional, Williams, J. B., additional, Jahnke, T., additional, Dörner, R., additional, Schöffler, M. S., additional, and Demekhin, Ph. V., additional

Published
2021
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22. Experimental and theoretical study of singly ionizing 1-MeV p+He collisions at different energy and momentum transfer values

Author

Chuluunbaatar, O, primary, Kouzakov, K A, additional, Zaytsev, S A, additional, Zaytsev, A S, additional, Shablov, V L, additional, Popov, Yu V, additional, Gassert, H, additional, Waitz, M, additional, Kim, H-K, additional, Bauer, T, additional, Laucke, A, additional, Müller, Ch, additional, Voigtsberger, J, additional, Weller, M, additional, Rist, J, additional, Pahl, K, additional, Honig, M, additional, Pitzer, M, additional, Zeller, S, additional, Jahnke, T, additional, Ph, L, additional, Schmidt, H, additional, Schmidt-Böcking, H, additional, Dörner, R, additional, and Schöffler, M S, additional

Published
2020
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25. Publisher Correction: Imaging the square of the correlated two-electron wave function of a hydrogen molecule (Nature Communications (2017) DOI: 10.1038/s41467-017-02437-9)

Author

Waitz, M, Bello, RY, Metz, D, Lower, J, Trinter, F, Schober, C, Keiling, M, Lenz, U, Pitzer, M, Mertens, K, Martins, M, Viefhaus, J, Klumpp, S, Weber, T, Schmidt, LPH, Williams, JB, Schöffler, MS, Serov, VV, Kheifets, AS, Argenti, L, Palacios, A, Martín, F, Jahnke, T, and Dörner, R

Abstract

© 2018 The Author(s). The original version of this Article contained an error in the fifth sentence of the first paragraph of the 'Application on H2' section of the Results, which incorrectly read 'The role of electron correlation is quite apparent in this presentation: Fig. 1a is empty for the uncorrelated Hartree-Fock wave function, since projection of the latter wave function onto the 2pσuorbital is exactly zero, while this is not the case for the fully correlated wave function (Fig. 1d); also, Fig. 1b, c for the uncorrelated description are identical, while Fig. 1e, f for the correlated case are significantly different.' The correct version replaces 'Fig. 1e, f' with 'Fig. 2e and f'. This has been corrected in both the PDF and HTML versions of the Article.

Published
2018
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26. Angular streaking in strong field ionization of chiral molecules

Author

Fehre, K., primary, Eckart, S., additional, Kunitski, M., additional, Janke, C., additional, Trabert, D., additional, Rist, J., additional, Weller, M., additional, Hartung, A., additional, Pitzer, M., additional, Schmidt, L. Ph. H., additional, Jahnke, T., additional, Dörner, R., additional, and Schöffler, M. S., additional

Published
2019
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27. Direct observation of interatomic Coulombic decay and subsequent ion-atom scattering in helium nanodroplets

Author

Wiegandt, F., primary, Trinter, F., additional, Henrichs, K., additional, Metz, D., additional, Pitzer, M., additional, Waitz, M., additional, Jabbour al Maalouf, E., additional, Janke, C., additional, Rist, J., additional, Wechselberger, N., additional, Miteva, T., additional, Kazandjian, S., additional, Schöffler, M., additional, Sisourat, N., additional, Jahnke, T., additional, and Dörner, R., additional

Published
2019
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28. Single ionization of helium by fast proton impact in different kinematical regimes

Author

Chuluunbaatar, O., primary, Kouzakov, K. A., additional, Zaytsev, S. A., additional, Zaytsev, A. S., additional, Shablov, V. L., additional, Popov, Yu. V., additional, Gassert, H., additional, Waitz, M., additional, Kim, H.-K., additional, Bauer, T., additional, Laucke, A., additional, Müller, Ch., additional, Voigtsberger, J., additional, Weller, M., additional, Rist, J., additional, Pahl, K., additional, Honig, M., additional, Pitzer, M., additional, Zeller, S., additional, Jahnke, T., additional, Schmidt, L. Ph. H., additional, Schmidt-Böcking, H., additional, Dörner, R., additional, and Schöffler, M. S., additional

Published
2019
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29. Enantioselective fragmentation of an achiral molecule in a strong laser field

Author

Fehre, K., primary, Eckart, S., additional, Kunitski, M., additional, Pitzer, M., additional, Zeller, S., additional, Janke, C., additional, Trabert, D., additional, Rist, J., additional, Weller, M., additional, Hartung, A., additional, Schmidt, L. Ph. H., additional, Jahnke, T., additional, Berger, R., additional, Dörner, R., additional, and Schöffler, M. S., additional

Published
2019
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31. Direct determination of molecular handedness via coulomb explosion imaging

Author

Pitzer, M, Kunitski, M, Kastirke, G, Jahnke, T, Bauer, T, Goihl, C, Trinter, F, Schober, C, Henrichs, K, Becht, J, Zeller, S, Gassert, H, Waitz, M, Kuhlins, A, Wiegandt, F, Wallauer, R, Schmidt, L Ph H, Mazenauer, Manuel, Spenger, Benjamin, Marquardt, S, Schmidt-Böcking, H, Stohner, Jürgen, Dörner, R, Schöffler, M S, Berger, R, Pitzer, M, Kunitski, M, Kastirke, G, Jahnke, T, Bauer, T, Goihl, C, Trinter, F, Schober, C, Henrichs, K, Becht, J, Zeller, S, Gassert, H, Waitz, M, Kuhlins, A, Wiegandt, F, Wallauer, R, Schmidt, L Ph H, Mazenauer, Manuel, Spenger, Benjamin, Marquardt, S, Schmidt-Böcking, H, Stohner, Jürgen, Dörner, R, Schöffler, M S, and Berger, R

Published
2018

32. Publisher Correction: Imaging the square of the correlated two-electron wave function of a hydrogen molecule

Author

Waitz M., Bello R.Y., Metz D., Lower J., Trinter F., Schober C., Keiling M., Lenz U., Pitzer M., Mertens K., Martins M., Viefhaus J., Klumpp S., Weber T., Schmidt L.P.H., Williams J.B., Schöffler M.S., Serov V.V., Kheifets A.S., Argenti L., Palacios A., Martín, Fernando, Jahnke T., Dörner R., Waitz M., Bello R.Y., Metz D., Lower J., Trinter F., Schober C., Keiling M., Lenz U., Pitzer M., Mertens K., Martins M., Viefhaus J., Klumpp S., Weber T., Schmidt L.P.H., Williams J.B., Schöffler M.S., Serov V.V., Kheifets A.S., Argenti L., Palacios A., Martín, Fernando, Jahnke T., and Dörner R.

Published
2018

33. Direct determination of molecular handedness via coulomb explosion imaging

Author

Pitzer, M., Kunitski, M., Kastirke, G., Jahnke, T., Bauer, T., Goihl, C., Trinter, F., Schober, C., Henrichs, K., Becht, J., Zeller, S., Gassert, H., Waitz, M., Kuhlins, A., Wiegandt, F., Wallauer, R., Schmidt, L.Ph.H., Mazenauer, M., Spenger, B., Marquardt, S., Schmidt-Böcking, H., Stohner, J., Dörner, R., Schöffler, M.S., Berger, R., Pitzer, M., Kunitski, M., Kastirke, G., Jahnke, T., Bauer, T., Goihl, C., Trinter, F., Schober, C., Henrichs, K., Becht, J., Zeller, S., Gassert, H., Waitz, M., Kuhlins, A., Wiegandt, F., Wallauer, R., Schmidt, L.Ph.H., Mazenauer, M., Spenger, B., Marquardt, S., Schmidt-Böcking, H., Stohner, J., Dörner, R., Schöffler, M.S., and Berger, R.

Abstract

In this work, we show that the direct determination of a chiral molecule's absolute configuration can be achieved with Coulomb Explosion Imaging in a COLTRIMS reaction microscope. We compare the results after ionisation with femto-second laser pulses and with X-ray synchrotron light. Different fragmentation pathways of the prototypical chiral molecule CHBrClF are identified that carry information on the handedness. The applicabilty of the technique towards bigger molecules is discussed.

Published
2018

34. Imaging the square of the correlated two-electron wave function of a hydrogen molecule

Author

Waitz M., Bello R.Y., Metz D., Lower J., Trinter F., Schober C., Keiling M., Lenz U., Pitzer M., Mertens K., Martins M., Viefhaus J., Klumpp S., Weber T., Schmidt L.P.H., Williams J.B., Schöffler M.S., Serov V.V., Kheifets A.S., Argenti L., Palacios A., Martín F., Jahnke T., Dörner R. and This work was funded by the Deutsche Forschungsgemeinschaft, the BMBF, the European Research Council under the European Union Seventh Framework Programme (FP7/2007-2013)/ERC grant agreement 290853 XCHEM, the MINECO projects FIS2013-42002-R and FIS2016-77889-R, and the European COST Action XLIC CM1204. All calculations were performed at the CCC-UAM and Mare Nostrum Supercomputer Centers. We are grateful to the staff of PETRA III for excellent support during the beam time. K.M. and M.M. would like to thank the DFG for support via SFB925/A3. A.K. and V.S. thank the Wilhelm und Else Heraeus-Foundation for support. J.L. would like to thank the DFG for support. S.K. acknowledges support from the European Cluster of Advanced Laser Light Sources (EUCALL) project which has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 654220. T.W. was supported by the U.S. Department of Energy Basic Energy Sciences under Contract No. DE-AC02-05CH11231. A.P. acknowledges a Ramón y Cajal contract from the Ministerio de Economa y Competitividad. We thank M. Lara-Astiaso for providing us with the Hartree–Fock wave functions.

Published
2017

36. Resonant interatomic Coulombic decay in HeNe: Electron angular emission distributions

Author

Mhamdi, A., primary, Trinter, F., additional, Rauch, C., additional, Weller, M., additional, Rist, J., additional, Waitz, M., additional, Siebert, J., additional, Metz, D., additional, Janke, C., additional, Kastirke, G., additional, Wiegandt, F., additional, Bauer, T., additional, Tia, M., additional, Cunha de Miranda, B., additional, Pitzer, M., additional, Sann, H., additional, Schiwietz, G., additional, Schöffler, M., additional, Simon, M., additional, Gokhberg, K., additional, Dörner, R., additional, Jahnke, T., additional, and Demekhin, Ph. V., additional

Published
2018
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38. Imaging the square of the correlated two-electron wave function of a hydrogen molecule

Author

Waitz M., Bello R.Y., Metz D., Lower J., Trinter F., Schober C., Keiling M., Lenz U., Pitzer M., Mertens K., Martins M., Viefhaus J., Klumpp S., Weber T., Schmidt L.P.H., Williams J.B., Schöffler M.S., Serov V.V., Kheifets A.S., Argenti L., Palacios A., Martín, Fernando, Jahnke T., Dörner R., Waitz M., Bello R.Y., Metz D., Lower J., Trinter F., Schober C., Keiling M., Lenz U., Pitzer M., Mertens K., Martins M., Viefhaus J., Klumpp S., Weber T., Schmidt L.P.H., Williams J.B., Schöffler M.S., Serov V.V., Kheifets A.S., Argenti L., Palacios A., Martín, Fernando, Jahnke T., and Dörner R.

Published
2017

39. Umsetzung eines teilstationären Behandlungsangebotes für Patienten mit Anorexia nervosa in der kinder- und jugendpsychiatrisch-psychotherapeutischen Regelversorgung

Author

Pitzer, M

Subjects
ddc: 610, 610 Medical sciences, Medicine
Abstract

Hintergrund: Die teilstationäre Behandlung ersterkrankter jugendlicher Patientinnen mit Anorexia nervosa zeigte in einer randomisierten, kontrollierten Studie einen mindestens vergleichbaren Outcome wie nach vollstationärer Behandlung (Herpertz-Dahlmann et al, 2014). Die vorliegende Studie[zum vollständigen Text gelangen Sie über die oben angegebene URL], 5. Wissenschaftlicher Kongress der Deutschen Gesellschaft für Essstörungen

Published
2016
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40. Two-Particle Interference of Electron Pairs on a Molecular Level

Author

Waitz M., Metz D., Lower J., Schober C., Keiling M., Pitzer M., Mertens K., Martins M., Viefhaus J., Klumpp S., Weber T., Schmidt-Böcking H., Schmidt L.P.H., Morales F., Miyabe S., Rescigno T.N., McCurdy C.W., Martín F., Williams J.B., Schöffler M.S., Jahnke T., Dörner R. and This work was funded by the Deutsche Forschungs Gemeinschaft (DFG), the BMBF, the European COST Action Grant No.AXLIC CM1204, the European Research Council Advanced XCHEM Grant No.A290853, and the MINECO Project Grant No.AFIS2013-42002-R. J.L. thanks the DFG for support. We are grateful to the staff of PETRA III for excellent support during the beam time. Raw data are archived at the Goethe-University Frankfurt am Main and are available on request.

Published
2016

41. Single ionization of Helium at 0.5 - 2 MeV proton impact: On the quest for projectile coherence effects

Author

Gatzke, J., primary, Navarrete, F., additional, Ciappina, M., additional, Gatzke, H., additional, Chuluunbaatar, O., additional, Zaytsev, S. A., additional, Bulychev, A. A., additional, Kouzakov, K. A., additional, Galstyan, A., additional, Waitz, M., additional, Kim, H.-K., additional, Bauer, T., additional, Laucke, A., additional, Eckart, S., additional, Kastirke, G., additional, Müller, J., additional, Ritzer, M., additional, Bloch, E., additional, Richter, M., additional, Fehre, K., additional, Kunitski, M., additional, Müller, Ch., additional, Voigtsberger, J., additional, Rist, J., additional, Pahl, K., additional, Honig, M., additional, Pitzer, M., additional, Weller, M., additional, Vela Pérez, I., additional, Hoehl, J., additional, Nalin, G., additional, Grundmann, S., additional, Maschkiwitz, H., additional, Janke, C., additional, Zeller, S., additional, Goihl, C., additional, Herrman, Y., additional, Trabert, D., additional, Jahnke, T., additional, Schmidt, L. Ph. H., additional, Popov, Yu. V., additional, Dörner, R., additional, Barrachina, R. O., additional, and Schöffler, M. S., additional

Published
2017
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42. Born in weak fields: below-threshold photoelectron dynamics

Author

Williams, J B, primary, Saalmann, U, additional, Trinter, F, additional, Schöffler, M S, additional, Weller, M, additional, Burzynski, P, additional, Goihl, C, additional, Henrichs, K, additional, Janke, C, additional, Griffin, B, additional, Kastirke, G, additional, Neff, J, additional, Pitzer, M, additional, Waitz, M, additional, Yang, Y, additional, Schiwietz, G, additional, Zeller, S, additional, Jahnke, T, additional, and Dörner, R, additional

Published
2017
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43. Two-Particle Interference of Electron Pairs on a Molecular Level

Author

Waitz M., Metz D., Lower J., Schober C., Keiling M., Pitzer M., Mertens K., Martins M., Viefhaus J., Klumpp S., Weber T., Schmidt-Böcking H., Schmidt L.P.H., Morales F., Miyabe S., Rescigno T.N., McCurdy C.W., Martín, Fernando, Williams J.B., Schöffler M.S., Jahnke T., Dörner R., Waitz M., Metz D., Lower J., Schober C., Keiling M., Pitzer M., Mertens K., Martins M., Viefhaus J., Klumpp S., Weber T., Schmidt-Böcking H., Schmidt L.P.H., Morales F., Miyabe S., Rescigno T.N., McCurdy C.W., Martín, Fernando, Williams J.B., Schöffler M.S., Jahnke T., and Dörner R.

Published
2016

44. Agreement of Experiment and Theory on the Single Ionization of Helium by Fast Proton Impact

Author

Gassert, H., primary, Chuluunbaatar, O., additional, Waitz, M., additional, Trinter, F., additional, Kim, H.-K., additional, Bauer, T., additional, Laucke, A., additional, Müller, Ch., additional, Voigtsberger, J., additional, Weller, M., additional, Rist, J., additional, Pitzer, M., additional, Zeller, S., additional, Jahnke, T., additional, Schmidt, L. Ph. H., additional, Williams, J. B., additional, Zaytsev, S. A., additional, Bulychev, A. A., additional, Kouzakov, K. A., additional, Schmidt-Böcking, H., additional, Dörner, R., additional, Popov, Yu. V., additional, and Schöffler, M. S., additional

Published
2016
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45. Electron-Nuclear Energy Sharing in Above-Threshold Multiphoton Dissociative Ionization ofH2

Author

Wu, J., Kunitski, M., Pitzer, M., Trinter, F., Schmidt, L.Ph.H., Jahnke, T., Dörner, R., Magrakvelidze, M., Madsen, C.B., Thumm, U., and Madsen, L.B.

Subjects
Physics, Photoemission spectroscopy, Atoms in molecules, Binding energy, General Physics and Astronomy, Electron, Photon energy, Kinetic energy, 7. Clean energy, 01 natural sciences, 010305 fluids & plasmas, Ion, Ionization, 0103 physical sciences, Physics::Atomic and Molecular Clusters, Physics::Atomic Physics, Atomic physics, 010306 general physics
Abstract

We report experimental observation of the energy sharing between electron and nuclei in abovethreshold multiphoton dissociative ionization of H2 by strong laser fields. The absorbed photon energy is shared between the ejected electron and nuclei in a correlated fashion, resulting in multiple diagonal lines in their joint energy spectrum governed by the energy conservation of all fragment particles. Deposition of the photon energy to atoms and molecules is the primary step of the interactions of radiation with matter. The details of this deposition process, in particular how the photon energy is distributed among the subsystems and various internal degrees of freedom, determine all photon-induced chemical and physical dynamics. For the interaction with a strong laser field, this question of energy deposition gets even richer since it is well established that the energy of more photons than the minimal number required for ionization can be absorbed. For atoms in a strong field, this leads to discrete peaks in the photoelectron spectrum that are spaced by the photon energy and referred to as ‘‘above-threshold ionization’’ (ATI) [1]. For molecules the vibrational, rotational, and dissociative motions of the nuclei provide a sink for the photon energy in addition to the electrons. This has been observed in single-photon dissociative ionization of molecules exposed to synchrotron radiation [2–4], where the photon energy is shared by the freed electrons and the nuclear fragments. For the molecular multiphoton case, rich ATI spectra of the freed electron [5–9], bond-softening-induced molecular dissociative ionization [10–15], and the imaging of internuclear distance using nuclear kinetic energy release spectra [16–19] have been reported. The correlation between the fragment ion and the electron energy has most recently been studied in numerical simulations for H 2 þ [20,21]. A nontrivial sharingof the absorbedphoton energy between the electron and nuclei in multiphoton ionization of molecules was predicted and stimulated us to investigate this problem experimentally. Here, we report the experimental observation of the energy sharing between the emitted electron and nuclei from above-threshold multiphoton dissociative ionization of the simplest molecule H 2 by intense femtosecond laser pulses. Discrete numbers of absorbed photons can be identified by peaked diagonal lines in the joint energy spectrum (JES) of the coincidently measured electron and nuclei [20]. Since there is no direct coupling between the nuclei and the laser field for homonuclear diatomic molecules, the laser first couples to the electrons, and the electrons then couple to the nuclei. The energy taken by the nuclei therefore measures the correlation between the electrons and nuclei. Figure 1 shows a much simplified schematics of the process. By absorbing multiple photons (blue vertical arrows), the H2 molecule emits one electron and a nuclear wavepacket on the � þ (ground) state of H 2 þ is launched. It propagates on the � þ potential curve of H 2 þ .P art of this wavepacket already has sufficient energy to escape (direct pathway), while another part can be promoted to the dissociative � þ potential curve by resonant absorption of one additional photon (one-photon pathway). In the multiphoton picture, the sum of the kinetic energy of the proton (Ep), hydrogen atom (EH), and electron (Ee) after the end of the laser pulse is given by

Published
2013
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46. Single ionization of helium by fast proton impact: Searching for projectile coherence

Author

Gassert, H, primary, Chuluunbaatar, O, additional, Waitz, M, additional, Kim, H-K, additional, Bauer, T, additional, Laucke, A, additional, Müller, Ch, additional, Voigtsberger, J, additional, Weller, M, additional, Rist, J, additional, Pahl, K, additional, Honig, M, additional, Pitzer, M, additional, Zeller, S, additional, Jahnke, T, additional, Schmidt, L Ph H, additional, Zaytsev, S A, additional, Bulychev, A A, additional, Schmidt-Böcking, H, additional, Kouzakov, K A, additional, Dörner, R, additional, Schöffler, M S, additional, and Popov, Yu V, additional

Published
2015
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47. Direct Determination of Molecular Handedness via Coulomb Explosion Imaging

Author

Pitzer, M, primary, Kunitski, M, additional, Kastirke, G, additional, Jahnke, T, additional, Bauer, T, additional, Goihl, C, additional, Trinter, F, additional, Schober, C, additional, Henrichs, K, additional, Becht, J, additional, Zeller, S, additional, Gassert, H, additional, Waitz, M, additional, Kuhlins, A, additional, Wiegandt, F, additional, Wallauer, R, additional, Schmidt, L Ph H, additional, Mazenauer, M, additional, Spenger, B, additional, Marquardt, S, additional, Schmidt-Böcking, H, additional, Stohner, J, additional, Dörner, R, additional, Schöffler, M S, additional, and Berger, R, additional

Published
2015
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49. Interatomic-Coulombic-decay-induced recapture of photoelectrons in helium dimers

Author

Burzynski, P., primary, Trinter, F., additional, Williams, J. B., additional, Weller, M., additional, Waitz, M., additional, Pitzer, M., additional, Voigtsberger, J., additional, Schober, C., additional, Kastirke, G., additional, Müller, C., additional, Goihl, C., additional, Wiegandt, F., additional, Wallauer, R., additional, Kalinin, A., additional, Schmidt, L. Ph. H., additional, Schöffler, M., additional, Schiwietz, G., additional, Sisourat, N., additional, Jahnke, T., additional, and Dörner, R., additional

Published
2014
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50. A measurement of the evolution of Interatomic Coulombic Decay in the time domain

Author

Trinter, F, primary, Williams, J B, additional, Weller, M, additional, Waitz, M, additional, Pitzer, M, additional, Voigtsberger, J, additional, Schober, C, additional, Kastirke, G, additional, Müller, C, additional, Goihl, C, additional, Burzynski, P, additional, Wiegandt, F, additional, Sann, H, additional, Wallauer, R, additional, Kalinin, A, additional, Schmidt, L, additional, Schöffler, M, additional, Sisourat, N, additional, and Jahnke, T, additional

Published
2014
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