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1. Accuracy and speed of elongation in a minimal model of DNA replication

Author

Sahoo, M, N, Arsha, Baral, P R, and Klumpp, S

Subjects
Condensed Matter - Soft Condensed Matter, Quantitative Biology - Biomolecules, Quantitative Biology - Subcellular Processes
Abstract

Being a dual purpose enzyme, the DNA polymerase is responsible for elongation of the newly formed DNA strand as well as cleaving the erroneous growth in case of a misincorporation. The efficiency of replication depends on the coordination of the polymerization and exonuclease activity of DNA polymerase. Here we propose and analyze a minimal kinetic model of DNA replication and determine exact expressions for the velocity of elongation and the accuracy of replication. We first analyze the case without exonuclease activity. In that case, accuracy is determined by a kinetic competition between stepping and unbinding, with discrimination between correct and incorrect nucleotides in both transitions. We then include exonuclease activity and ask how different modes of additional discrimination in the exonuclease pathway can improve the accuracy while limiting the detrimental effect of exonuclase on the speed of replication. In this way, we ask how the kinetic parameters of the model have to be set to coordinate the two activities of the enzyme for high accuracy and high speed. The analysis also shows that the design of a replication system does not universally have to follow the speed-accuracy trade-off rule, although it does in the biologically realized parameter range. The accuracy of the process is mainly controlled by the crucial role of stepping after erroneous incorporation, which has impact on both polymerase and exonuclease activities of DNA polymerase.

Published
2021
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2. The photon-ion merged-beams experiment PIPE at PETRAIII - The first five years

Author

Schippers, S., Buhr, T., Borovik Jr., A., Holste, K., Perry-Sassmannshausen, A., Mertens, K., Reinwardt, S., Martins, M., Klumpp, S., Schubert, K., Bari, S., Beerwerth, R., Fritzsche, S., Ricz, S., Hellhund, J., and Müller, A.

Subjects
Physics - Atomic Physics
Abstract

The Photon-Ion Spectrometer at PETRA III - in short, PIPE - is a permanently installed user facility at the "Variable Polarization XUV Beamline" P04 of the synchrotron light source PETRA III operated by DESY in Hamburg, Germany. The careful design of the PIPE ion-optics in combination with the record-high photon flux at P04 has lead to a breakthrough in experimental studies of photon interactions with ionized small quantum systems. This short review provides an overview over the published scientific results from photon-ion merged-beams experiments at PIPE that were obtained since the start of P04 operations in 2013. The topics covered comprise photoionization of ions of astrophysical relevance, quantitative studies of multi-electron processes upon inner-shell photoexcitation and photoionization of negative and positive atomic ions, precision spectroscopy of photoionization resonances, photoionization and photofragmentation of molecular ions and of endohedral fullerene ions., Comment: 10 pages, 9 figures

Published
2018
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3. Photoionization of metastable heliumlike C4+(1s 2s 3S1) ions: Precision study of intermediate doubly excited states

Author

Müller, A., Lindroth, E., Bari, S., Borovik Jr., A., Hillenbrand, P. -M., Holste, K., Indelicato, P., Kilcoyne, A. L. D., Klumpp, S., Martins, M., Viefhaus, J., Wilhelm, P., and Schippers, S.

Subjects
Physics - Atomic Physics
Abstract

In a joint experimental and theoretical endeavour, photoionization of metastable C4+(1s 2s 3S1) ions via intermediate levels with hollow, double-K-vacancy configurations 2s2p, 2s3p, 2p3s, 2p3d, 2s4p, 2p4s and 2p4d has been investigated. High-resolution photon-ion merged-beams measurements were carried out with the resolving power reaching up to 25,000 which is sufficient to separate the leading fine-structure components of the 2s2p 3P term. Many-body perturbation theory was employed to determine level-to-level cross sections for K-shell excitation with subsequent autoionization. The resonance energies were calculated with inclusion of electron correlation and radiative contributions. Their uncertainties are estimated to be below $\pm$1 meV. Detailed balance confirms the present photoionization cross-section results by comparison with previous dielectronic-recombination measurements. The high accuracy of the theoretical transition energies together with the present experimental results qualify photoabsorption resonances in heliumlike ions as new, greatly improved energy-reference standards at synchrotron radiation facilities.

Published
2018
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4. Near-K-edge single, double, and triple photoionization of C+ ions

Author

Müller, A., Borovik Jr., A., Buhr, T., Hellhund, J., Holste, K., Kilcoyne, A. L. D., Klumpp, S., Martins, M., Ricz, S., Viefhaus, J., and Schippers, S.

Subjects
Physics - Atomic Physics
Abstract

Single, double, and triple ionization of the C+ ion by a single photon have been investigated in the energy range 286 to 326 eV around the K-shell single-ionization threshold at an unprecedented level of detail. At energy resolutions as low as 12 meV, corresponding to a resolving power of 24000, natural linewidths of the most prominent resonances could be determined. From the measurement of absolute cross sections, oscillator strengths, Einstein coefficients, multi-electron Auger decay rates and other transition parameters of the main K-shell excitation and decay processes are derived. The cross sections are compared to results of previous theoretical calculations. Mixed levels of agreement are found despite the relatively simple atomic structure of the C+ ion with only 5 electrons. This paper is a follow-up of a previous Letter [M\"uller et al., Phys. Rev. Lett. 114, 013002 (2015)].

Published
2018
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5. Separating Dipole and Quadrupole Contributions to Single-Photon Double Ionization

Author

Grundmann, S., Trinter, F., Bray, A. W., Eckart, S., Rist, J., Kastirke, G., Metz, D., Klumpp, S., Viefhaus, J., Schmidt, L. Ph. H., Williams, J. B., Dörner, R., Jahnke, T., Schöffler, M. S., and Kheifets, A. S.

Subjects
Physics - Atomic Physics
Abstract

We report on a kinematically complete measurement of double ionization of helium by a single 1100 eV circularly polarized photon. By exploiting dipole selection rules in the two-electron continuum state, we observed the angular emission pattern of electrons originating from a pure quadrupole transition. Our fully differential experimental data and companion ab initio nonperturbative theory show the separation of dipole and quadrupole contributions to photo-double-ionization and provide new insight into the nature of the quasifree mechanism., Comment: 5 Pages, 3 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. Photoionization and photofragmentation of singly charged positive and negative Sc3 N@ C80 endohedral fullerene ions

Author

Müller, A, Martins, M, Kilcoyne, ALD, Phaneuf, RA, Hellhund, J, Borovik, A, Holste, K, Bari, S, Buhr, T, Klumpp, S, Perry-Sassmannshausen, A, Reinwardt, S, Ricz, S, Schubert, K, and Schippers, S

Abstract

Photoprocesses of the endohedral fullerene ions Sc3N@C80+ and Sc3N@C80- in the gas phase have been investigated in the photon energy ranges 30-50 eV and 280-420 eV. Single and double ionization as well as single ionization accompanied by the release of a C2 dimer were observed as a function of the photon energy for the positive parent ion and double detachment was measured for the negative parent ion. The emphasis of the experiments was on the specific effects of the encapsulated trimetallic nitride cluster Sc3N on the observed reactions. Clear evidence of photoexcitation near the Sc L edge is obtained with the dominating contributions visible in the one- and two-electron-removal channels. K-vacancy production in the encapsulated central nitrogen atom is seen in the single ionization of Sc3N@C80+ but is much less pronounced in the photoionization-with-fragmentation channel. Comparison of the cross sections near the carbon K edge with the corresponding channels measured previously in the photoionization of Lu3N@C80+ reveal strong similarities. Previously predicted sharp resonance features in the ionization of Sc3N@C80+ ions below the Sc M edge are not confirmed. The experiments are accompanied by quantum-chemistry calculations in the Hartree-Fock approximation and by model calculations employing density functional theory (DFT).

Published
2019

8. Photoionization and photofragmentation of singly charged positive and negative Sc3N@C80 endohedral fullerene ions

Author

Müller, A, Martins, M, Kilcoyne, ALD, Phaneuf, RA, Hellhund, J, Borovik, A, Holste, K, Bari, S, Buhr, T, Klumpp, S, Perry-Sassmannshausen, A, Reinwardt, S, Ricz, S, Schubert, K, and Schippers, S

Subjects
Mathematical Sciences, Physical Sciences, Chemical Sciences, General Physics
Abstract

Photoprocesses of the endohedral fullerene ions Sc3N@C80+ and Sc3N@C80- in the gas phase have been investigated in the photon energy ranges 30-50 eV and 280-420 eV. Single and double ionization as well as single ionization accompanied by the release of a C2 dimer were observed as a function of the photon energy for the positive parent ion and double detachment was measured for the negative parent ion. The emphasis of the experiments was on the specific effects of the encapsulated trimetallic nitride cluster Sc3N on the observed reactions. Clear evidence of photoexcitation near the Sc L edge is obtained with the dominating contributions visible in the one- and two-electron-removal channels. K-vacancy production in the encapsulated central nitrogen atom is seen in the single ionization of Sc3N@C80+ but is much less pronounced in the photoionization-with-fragmentation channel. Comparison of the cross sections near the carbon K edge with the corresponding channels measured previously in the photoionization of Lu3N@C80+ reveal strong similarities. Previously predicted sharp resonance features in the ionization of Sc3N@C80+ ions below the Sc M edge are not confirmed. The experiments are accompanied by quantum-chemistry calculations in the Hartree-Fock approximation and by model calculations employing density functional theory (DFT).

Published
2019

9. Photoionization of metastable heliumlike C4+(1s2s S1 3) ions: Precision study of intermediate doubly excited states

Author

Müller, A, Lindroth, E, Bari, S, Borovik, A, Hillenbrand, PM, Holste, K, Indelicato, P, Kilcoyne, ALD, Klumpp, S, Martins, M, Viefhaus, J, Wilhelm, P, and Schippers, S

Abstract

In a joint experimental and theoretical endeavor, photoionization of metastable C4+(1s2sS13) ions via intermediate levels with hollow, double-K-vacancy configurations 2s2p, 2s3p, 2p3s, 2p3d, 2s4p, 2p4s, and 2p4d has been investigated. High-resolution photon-ion merged-beams measurements were carried out with the resolving power reaching up to 25 800 which is sufficient to separate the leading fine-structure components of the 2s2pP3 term. Many-body perturbation theory was employed to determine level-to-level cross sections for K-shell excitation with subsequent autoionization. The resonance energies were calculated with inclusion of electron correlation and radiative contributions. Their uncertainties are estimated to be below ±1 meV. Detailed balance confirms the present photoionization cross-section results by comparison with previous dielectronic-recombination measurements. The high accuracy of the theoretical transition energies together with the present experimental results qualify photoabsorption resonances in heliumlike ions as new, greatly improved energy-reference standards at synchrotron radiation facilities.

Published
2018

10. Photoionization of metastable heliumlike C4+(1s2sS13) ions: Precision study of intermediate doubly excited states

Author

Müller, A, Lindroth, E, Bari, S, Borovik, A, Hillenbrand, P-M, Holste, K, Indelicato, P, Kilcoyne, ALD, Klumpp, S, Martins, M, Viefhaus, J, Wilhelm, P, and Schippers, S

Subjects
Nuclear and Plasma Physics, Synchrotrons and Accelerators, Physical Chemistry, Chemical Sciences, Physical Sciences, Atomic, Molecular and Optical Physics, Chemical sciences, Mathematical sciences, Physical sciences
Abstract

In a joint experimental and theoretical endeavor, photoionization of metastable C4+(1s2sS13) ions via intermediate levels with hollow, double-K-vacancy configurations 2s2p, 2s3p, 2p3s, 2p3d, 2s4p, 2p4s, and 2p4d has been investigated. High-resolution photon-ion merged-beams measurements were carried out with the resolving power reaching up to 25 800 which is sufficient to separate the leading fine-structure components of the 2s2pP3 term. Many-body perturbation theory was employed to determine level-to-level cross sections for K-shell excitation with subsequent autoionization. The resonance energies were calculated with inclusion of electron correlation and radiative contributions. Their uncertainties are estimated to be below ±1 meV. Detailed balance confirms the present photoionization cross-section results by comparison with previous dielectronic-recombination measurements. The high accuracy of the theoretical transition energies together with the present experimental results qualify photoabsorption resonances in heliumlike ions as new, greatly improved energy-reference standards at synchrotron radiation facilities.

Published
2018

11. 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

12. Near- K -edge single, double, and triple photoionization of C+ ions

Author

Müller, A, Borovik, A, Buhr, T, Hellhund, J, Holste, K, Kilcoyne, ALD, Klumpp, S, Martins, M, Ricz, S, Viefhaus, J, and Schippers, S

Abstract

Single, double, and triple ionization of the C+ ion by a single photon have been investigated in the energy range 286 to 326 eV around the K-shell single-ionization threshold at an unprecedented level of detail. At energy resolutions as low as 12 meV, corresponding to a resolving power of 24 000, natural linewidths of the most prominent resonances could be determined. From the measurement of absolute cross sections, oscillator strengths, Einstein coefficients, multielectron Auger decay rates, and other transition parameters of the main K-shell excitation and decay processes are derived. The cross sections are compared to results of previous theoretical calculations. Mixed levels of agreement are found despite the relatively simple atomic structure of the C+ ion with only five electrons. This paper is a followup to a previous Letter [A. Müller, Phys. Rev. Lett. 114, 013002 (2015)PRLTAO0031-900710.1103/PhysRevLett.114.013002].

Published
2018

13. 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

14. X-Ray Science at DESY: Upgrade Programs for the User Facilities FLASH and PETRA III

Author

Baev, K., primary, Bagschik, K., additional, Bartolini, R., additional, Gühr, M., additional, Klumpp, S., additional, Leemans, W., additional, Maier, A. R., additional, Martinez de la Ossa, A., additional, Osterhoff, J., additional, Reichert, H., additional, Schaper, L., additional, Schreiber, S., additional, Schroer, C. G., additional, Schubert, K., additional, Winkler, P., additional, and Weckert, E., additional

Published
2024
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15. 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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16. Photoionization of Ne Atoms and Ne+ Ions Near the K Edge: PrecisionSpectroscopy and Absolute Cross-sections

Author

Müller, A, Bernhardt, D, Borovik, A, Buhr, T, Hellhund, J, Holste, K, Kilcoyne, ALD, Klumpp, S, Martins, M, Ricz, S, Seltmann, J, Viefhaus, J, and Schippers, S

Subjects
atomic data, atomic processes, ISM: atoms, line: identification, line: profiles, opacity, Astronomy & Astrophysics, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural)
Abstract

Single, double, and triple photoionization of Ne+ ions by single photons have been investigated at the synchrotron radiation source PETRA III in Hamburg, Germany. Absolute cross-sections were measured by employing the photon-ion merged-beams technique. Photon energies were between about 840 and 930 eV, covering the range from the lowest-energy resonances associated with the excitation of one single K-shell electron up to double excitations involving one K- and one L-shell electron, well beyond the K-shell ionization threshold. Also, photoionization of neutral Ne was investigated just below the K edge. The chosen photon energy bandwidths were between 32 and 500 meV, facilitating the determination of natural line widths. The uncertainty of the energy scale is estimated to be 0.2 eV. For comparison with existing theoretical calculations, astrophysically relevant photoabsorption cross-sections were inferred by summing the measured partial ionization channels. Discussion of the observed resonances in the different final ionization channels reveals the presence of complex Auger-decay mechanisms. The ejection of three electrons from the lowest K-shell-excited Ne+() level, for example, requires cooperative interaction of at least four electrons.

Published
2017

17. Stepwise contraction of the nf Rydberg shells in the 3d photoionization of multiply-charged xenon ions

Author

Schippers, S., Borovik Jr., A., Buhr, T., Hellhund, J., Holste, K., Kilcoyne, A. L. D., Klumpp, S., Martins, M., Müller, A., Ricz, S., and Fritzsche, S.

Subjects
Physics - Atomic Physics
Abstract

Triple photoionization of Xe3+, Xe4+ and Xe5+ ions has been studied in the energy range 670-750 eV, including the 3d ionization threshold. The photon-ion merged-beam technique was used at a synchrotron light source to measure the absolute photoionization cross sections. These cross sections exhibit a progressively larger number of sharp resonances as the ion charge state is increased. This clearly visualizes the re-ordering of the $\epsilon$f continuum into a regular series of (bound) Rydberg orbitals as the ionic core becomes more attractive. The energies and strengths of the resonances are extracted from the experimental data and are further analyzed by relativistic atomic-structure calculations., Comment: 10 pages, 4 figures, 1 table, 32 references

Published
2014
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18. 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

19. Absolute cross sections for photoionization of Xe$^{q+}$ ions (1 $\le$ q $\le$ 5) at the 3d ionization threshold

Author

Schippers, S., Ricz, S., Buhr, T., Borovik Jr., A., Hellhund, J., Holste, K., Huber, K., Schäfer, H. -J., Schury, D., Klumpp, S., Mertens, K., Martins, M., Flesch, R., Ulrich, G., Rühl, E., Jahnke, T., Lower, J., Metz, D., Schmidt, L. P. H., Schöffler, M., Williams, J. B., Glaser, L., Scholz, F., Seltmann, J., Viefhaus, J., Dorn, A., Wolf, A., Ullrich, J., and Müller, A.

Subjects
Physics - Atomic Physics
Abstract

The photon-ion merged-beams technique has been employed at the new Photon-Ion spectrometer at PETRA III (PIPE) for measuring multiple photoionization of Xe$^{q+}$ (q=1-5) ions. Total ionization cross sections have been obtained on an absolute scale for the dominant ionization reactions of the type h\nu + Xe$^{q+}$ $\to$ Xe$^{r+}$ + (q-r) e$^-$ with product charge states q+2 $\le$ r $\le$ q+5. Prominent ionization features are observed in the photon-energy range 650-750 eV, which are associated with excitation or ionization of an inner-shell 3d electron. Single-configuration Dirac-Fock calculations agree quantitatively with the experimental cross sections for non-resonant photoabsorption, but fail to reproduce all details of the measured ionization resonance structures., Comment: 20 pages, 12 figures, submitted for publication to J. Phys. B

Published
2014
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23. Experimental and Numerical Investigations of Boundary-Layer Influence Using Plasma-Actuators

Author

Grundmann, S., Klumpp, S., Tropea, C., Hirschel, Ernst Heinrich, editor, Schröder, Wolfgang, editor, Fujii, Kozo, editor, Haase, Werner, editor, van Leer, Bram, editor, Leschziner, Michael A., editor, Pandolfi, Maurizio, editor, Periaux, Jacques, editor, Rizzi, Arthur, editor, Roux, Bernard, editor, Shokin, Yurii I., editor, and King, Rudibert, editor

Published
2007
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33. Photoionization and photofragmentation of singly charged positive and negative $Sc_{3}N@C_{80}$ endohedral fullerene ions

Author

Mueller, Alfred, Martins, M., Kilcoyne, A. L. D., Phaneuf, R. A., Hellhund, J., Borovik, A., Holste, K., Bari, S., Buhr, Ticia, Klumpp, S., Perry-Sassmannshausen, A., Reinwardt, S., Ricz, S., Schubert, K., and Schippers, S.

Subjects
General Physics, Physical Sciences, Chemical Sciences, Physics::Atomic and Molecular Clusters, ddc:530, Mathematical Sciences
Abstract

Physical review / A 99(6), 063401 (2019). doi:10.1103/PhysRevA.99.063401, Photoprocesses of the endohedral fullerene ions Sc$_3$N@C$_{80}^+$ and Sc$_3$N@C$_{80}^-$ in the gas phase have been investigated in the photon energy ranges 30--50 eV and 280--420 eV. Single and double ionization as well as single ionization accompanied by the release of a C$_2$ dimer were observed as a function of the photon energy for the positive parent ion and double detachment was measured for the negative parent ion. The emphasis of the experiments was on the specific effects of the encapsulated trimetallic nitride cluster Sc$_3$N on the observed reactions. Clear evidence of photoexcitation near the Sc L edge is obtained with the dominating contributions visible in the one- and two-electron-removal channels. K-vacancy production in the encapsulated central nitrogen atom is seen in the single ionization of Sc$_3$N@C$_{80}^+$ but is much less pronounced in the photoionization-with-fragmentation channel. Comparison of the cross sections near the carbon K edge with the corresponding channels measured previously in the photoionization of Lu$_3$N@C$_{80}^+$ reveal strong similarities. Previously predicted sharp resonance features in the ionization of Sc$_3$N@C$_{80}^+$ ions below the Sc M edge are not confirmed. The experiments are accompanied by quantum-chemistry calculations in the Hartree-Fock approximation and by model calculations employing density functional theory (DFT)., Published by AIP, Woodbury, NY

Published
2020
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39. Photoionization and photofragmentation of singly charged positive and negative Sc3N@C80 endohedral fullerene ions

Author

Müller, A, primary, Martins, M, additional, Kilcoyne, A L D, additional, Phaneuf, R A, additional, Hellhund, J, additional, Borovik, A, additional, Holste, K, additional, Bari, S, additional, Buhr, T, additional, Klumpp, S, additional, Perry-Sassmannshausen, A, additional, Reinwardt, S, additional, Ricz, S, additional, Schubert, K, additional, and Schippers, S, additional

Published
2020
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42. 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

44. Photoionization of metastable heliumlike C4+(1s 2s 3S1) ions: Precision study of intermediate doubly excited states

Author

Mueller, Alfred, Lindroth, E., Viefhaus, J., Wilhelm, P., Schippers, S., Bari, S., Borovik, A., Hillenbrand, P.-M., Holste, K., Indelicato, Paul, Kilcoyne, David Lewis A, Klumpp, S., and Martins, M.

Subjects
Atomic Physics (physics.atom-ph), Physics::Atomic and Molecular Clusters, FOS: Physical sciences, ddc:530, Physics::Atomic Physics, Physics - Atomic Physics
Abstract

In a joint experimental and theoretical endeavor, photoionization of metastable $C^{4+}$($1s\,2s\; ^3S_ 1)$ ions via intermediate levels with hollow, double-K-vacancy configurations $2s2p, 2s3p, 2p3s, 2p3d, 2s4p, 2p4s$, and $2p4d$ has been investigated. High-resolution photon-ion merged-beams measurements were carried out with the resolving power reaching up to 25 800 which is sufficient to separate the leading fine-structure components of the $2s2p^{3}P$ term. Many-body perturbation theory was employed to determine level-to-level cross sections for $K$-shell excitation with subsequent autoionization. The resonance energies were calculated with inclusion of electron correlation and radiative contributions. Their uncertainties are estimated to be below $±1$ meV. Detailed balance confirms the present photoionization cross-section results by comparison with previous dielectronic-recombination measurements. The high accuracy of the theoretical transition energies together with the present experimental results qualify photoabsorption resonances in heliumlike ions as new, greatly improved energy-reference standards at synchrotron radiation facilities.

Published
2018

45. PIPE: The Photon-Ion-Endstation at PETRA III for Experimental Studies of XUV-Photoprocesses in Small Quantum Systems

Author

Schippers, S., Buhr, T., Mueller, Alfred, Perry-Sassmannshausen, A., Ricz, S., Klumpp, S., Mertens, K., Reinwardt, S., Martins, M., Schubert, K., Bari, S., Trinter, F., Waitz, M., Jahnke, Till, Schöffler, M., and Dörner, R.

Abstract

Deutsche Tagung für Forschung mit Synchrotronstrahlung, Neutronen und Ionenstrahlen an Großgeräten, SNI 2018, Garching, Germany, 17 Sep 2018 - 19 Sep 2018

Published
2018
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49. Photoionization of metastable heliumlike C4+ (1s2s S-3(1)) ions : Precision study of intermediate doubly excited states

Author

Müller, A., Lindroth, Eva, Bari, S., Borovik, A., Hillenbrand, P-M, Holste, K., Indelicato, P., Kilcoyne, A. L. D., Klumpp, S., Martins, M., Viefhaus, J., Wilhelm, P., Schippers, S., Müller, A., Lindroth, Eva, Bari, S., Borovik, A., Hillenbrand, P-M, Holste, K., Indelicato, P., Kilcoyne, A. L. D., Klumpp, S., Martins, M., Viefhaus, J., Wilhelm, P., and Schippers, S.

Abstract

In a joint experimental and theoretical endeavor, photoionization of metastable C4+ (1s2s S-3(1)) ions via intermediate levels with hollow, double-K-vacancy configurations 2s2p, 2s3p, 2p3s, 2p3d, 2s4p, 2p4s, and 2p4d has been investigated. High-resolution photon-ion merged-beams measurements were carried out with the resolving power reaching up to 25 800 which is sufficient to separate the leading fine-structure components of the 2s2p P-3 term. Many-body perturbation theory was employed to determine level-to-level cross sections for K-shell excitation with subsequent autoionization. The resonance energies were calculated with inclusion of electron correlation and radiative contributions. Their uncertainties are estimated to be below +/- 1 meV. Detailed balance confirms the present photoionization cross-section results by comparison with previous dielectronic-recombination measurements. The high accuracy of the theoretical transition energies together with the present experimental results qualify photoabsorption resonances in heliumlike ions as new, greatly improved energy-reference standards at synchrotron radiation facilities.

Published
2018
Full Text
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50. Separating Dipole and Quadrupole Contributions to Single-Photon Double Ionization

Author

Grundmann, S, Trinter, F, Bray, Alexander, Eckart, Sebastian, Rist, Jonas, Kastirke, G, Metz, Daniel, Klumpp, S, Viefhaus, J, Schmidt, Lothar Ph H, Williams, J B, Kheifets, Anatoli, Grundmann, S, Trinter, F, Bray, Alexander, Eckart, Sebastian, Rist, Jonas, Kastirke, G, Metz, Daniel, Klumpp, S, Viefhaus, J, Schmidt, Lothar Ph H, Williams, J B, and Kheifets, Anatoli

Abstract

We report on a kinematically complete measurement of double ionization of helium by a single 1100 eV circularly polarized photon. By exploiting dipole selection rules in the two-electron continuum state, we observed the angular emission pattern of electrons originating from a pure quadrupole transition. Our fully differential experimental data and companion ab initio nonperturbative theory show the separation of dipole and quadrupole contributions to photo-double-ionization and provide new insight into the nature of the quasifree mechanism.

Published
2018

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