Your search keyword '"S. Schössler"' showing total 16 results

1. Interatomic Coulombic Decay following Photoionization of the Helium Dimer: Observation of Vibrational Structure

Author

S. Voss, Till Jahnke, J. H. Morilla, J. Titze, M. Kühnel, J. Voigtsberger, R. Wallauer, Robert E. Grisenti, N. Neumann, S. Schössler, Reinhard Dörner, H. Sann, Markus Schöffler, T. Havermeier, Horst Schmidt-Böcking, Wieland Schöllkopf, Lutz Foucar, and K. Kreidi

Subjects

Physics, Helium atom, Coulomb explosion, FOS: Physical sciences, General Physics and Astronomy, Electron, Photoionization, Molecular physics, Ion, chemistry.chemical_compound, Interatomic Coulombic decay, chemistry, Ionization, Physics::Atomic and Molecular Clusters, Helium dimer, Physics - Atomic and Molecular Clusters, Physics::Atomic Physics, Atomic physics, Atomic and Molecular Clusters (physics.atm-clus)

Abstract

4 páginas 4 figuras.-PACS:36.40.Mr,33.20.Tp.-.-- et al., Using synchrotron radiation we simultaneously ionize and excite one helium atom of a helium dimer (He2) in a shakeup process. The populated states of the dimer ion [i.e., He*+(n=2,3)-He] are found to deexcite via interatomic Coulombic decay. This leads to the emission of a second electron from the neutral site and a subsequent Coulomb explosion. In this Letter we present a measurement of the momenta of fragments that are created during this reaction. The electron energy distribution and the kinetic energy release of the two He+ ions show pronounced oscillations which we attribute to the structure of the vibrational wave function of the dimer ion., This work was supported by the Koselleck Programm of DFG, R. E. G. acknowledges support by the Helmholtz Society, Grant No. VH-NG-331.

Published

2010

2. Momentum transfer to a free floating double slit: realization of a thought experiment from the Einstein-Bohr debates.

Author

Schmidt LP, Lower J, Jahnke T, Schößler S, Schöffler MS, Menssen A, Lévêque C, Sisourat N, Taïeb R, Schmidt-Böcking H, and Dörner R

Abstract

We simultaneously measured the momentum transferred to a free-floating molecular double slit and the momentum change of the atom scattering from it. Our experimental results are compared to quantum mechanical and semiclassical models. The results reveal that a classical description of the slits, which was used by Einstein in his debate with Bohr, provides a surprisingly good description of the experimental results, even for a microscopic system, if momentum transfer is not ascribed to a specific pathway but shared coherently and simultaneously between both.

Published

2013

3. Ionization dynamics of helium dimers in fast collisions with He++.

Author

Titze J, Schöffler MS, Kim HK, Trinter F, Waitz M, Voigtsberger J, Neumann N, Ulrich B, Kreidi K, Wallauer R, Odenweller M, Havermeier T, Schössler S, Meckel M, Foucar L, Jahnke T, Czasch A, Schmidt LP, Jagutzki O, Grisenti RE, Schmidt-Böcking H, Lüdde HJ, and Dörner R

Abstract

By employing the cold target recoil ion momentum spectroscopy technique, we have investigated the (He+, He+) breakup of a helium dimer (He2) caused by transfer ionization and double capture in collisions with alpha particles (E = 150  keV/u). Surprisingly, the results show a two-step process as well as a one-step process followed by electron exchange. In addition, interatomic Coulombic decay [L. S. Cederbaum, J. Zobeley, and F. Tarantelli, Phys. Rev. Lett. 79, 4778 (1997).] is observed in an ion collision for the first time.

Published

2011

4. Single photon double ionization of the helium dimer.

Author

Havermeier T, Jahnke T, Kreidi K, Wallauer R, Voss S, Schöffler M, Schössler S, Foucar L, Neumann N, Titze J, Sann H, Kühnel M, Voigtsberger J, Malakzadeh A, Sisourat N, Schöllkopf W, Schmidt-Böcking H, Grisenti RE, and Dörner R

Abstract

We show that a single photon can ionize the two helium atoms of the helium dimer in a distance up to 10 A. The energy sharing among the electrons, the angular distributions of the ions and electrons, as well as comparison with electron impact data for helium atoms suggest a knockoff type double ionization process. The Coulomb explosion imaging of He2 provides a direct view of the nuclear wave function of this by far most extended and most diffuse of all naturally existing molecules.

Published

2010

5. Interatomic Coulombic decay following photoionization of the helium dimer: observation of vibrational structure.

Author

Havermeier T, Jahnke T, Kreidi K, Wallauer R, Voss S, Schöffler M, Schössler S, Foucar L, Neumann N, Titze J, Sann H, Kühnel M, Voigtsberger J, Morilla JH, Schöllkopf W, Schmidt-Böcking H, Grisenti RE, and Dörner R

Abstract

Using synchrotron radiation we simultaneously ionize and excite one helium atom of a helium dimer (He2) in a shakeup process. The populated states of the dimer ion [i.e., He(*+)(n = 2, 3) - He] are found to deexcite via interatomic Coulombic decay. This leads to the emission of a second electron from the neutral site and a subsequent Coulomb explosion. In this Letter we present a measurement of the momenta of fragments that are created during this reaction. The electron energy distribution and the kinetic energy release of the two He+ ions show pronounced oscillations which we attribute to the structure of the vibrational wave function of the dimer ion.

Published

2010

6. Photo- and auger-electron recoil induced dynamics of interatomic Coulombic decay.

Author

Kreidi K, Demekhin PV, Jahnke T, Weber T, Havermeier T, Liu XJ, Morisita Y, Schössler S, Schmidt LP, Schöffler M, Odenweller M, Neumann N, Foucar L, Titze J, Ulrich B, Sturm F, Stuck C, Wallauer R, Voss S, Lauter I, Kim HK, Rudloff M, Fukuzawa H, Prümper G, Saito N, Ueda K, Czasch A, Jagutzki O, Schmidt-Böcking H, Scheit S, Cederbaum LS, and Dörner R

Abstract

At photon energies near the Ne K edge it is shown that for 1s ionization the Auger electron, and for 2s ionization the fast photoelectron, launch vibrational wave packets in a Ne dimer. These wave packets then decay by emission of a slow electron via interatomic Coulombic decay (ICD). The measured and computed ICD electron spectra are shown to be significantly modified by the recoil induced nuclear motion.

Published

2009

7. Few-photon multiple ionization of N2 by extreme ultraviolet free-electron laser radiation.

Author

Jiang YH, Rudenko A, Kurka M, Kühnel KU, Ergler T, Foucar L, Schöffler M, Schössler S, Havermeier T, Smolarski M, Cole K, Dörner R, Düsterer S, Treusch R, Gensch M, Schröter CD, Moshammer R, and Ullrich J

Abstract

Few-photon multiple ionization of N2 was studied differentially in a reaction microscope using 44 eV, approximately 25 fs, intense ( approximately 10(13) W/cm(2)) photon pulses from FLASH. Sequential ionization is observed to dominate. For various intermediate charge states N(2)(n+0 we find a considerable excess of photons absorbed compared to the minimum number that would energetically be required. Photoionization of aligned N(2)(n+) ions, produced by photon absorption in sequential steps, is explored and few-photon absorption pathways are traced by inspecting kinetic energy releases and fragment-ion angular distributions.

Published

2009

8. Young-type interference in collisions between hydrogen molecular ions and helium.

Author

Schmidt LP, Schössler S, Afaneh F, Schöffler M, Stiebing KE, Schmidt-Böcking H, and Dörner R

Abstract

The dissociative electron transfer from He into 10 keV H2+ was measured in a kinematically complete experiment by using the cold target recoil ion momentum spectroscopy imaging technique in combination with a highly resolving molecular fragment imaging technique. The electron transfer into the dissociative b(3)Sigma+_(u) state of H2 could be selected by kinematic conditions. We find a striking double slit interference pattern in the transverse momentum transfer which we can modify by selecting different internuclear distances. Compared to an optical double slit, interference minima and maxima are interchanged. The latter is the result of a phase shift in the electronic part of the wave function.

Published

2008

9. Recoil-ion momentum distributions for two-photon double ionization of He and Ne by 44 eV free-electron laser radiation.

Author

Rudenko A, Foucar L, Kurka M, Ergler T, Kühnel KU, Jiang YH, Voitkiv A, Najjari B, Kheifets A, Lüdemann S, Havermeier T, Smolarski M, Schössler S, Cole K, Schöffler M, Dörner R, Düsterer S, Li W, Keitel B, Treusch R, Gensch M, Schröter CD, Moshammer R, and Ullrich J

Abstract

Recoil-ion momentum distributions for two-photon double ionization of He and Ne (variant Planck's over omega=44 eV) have been recorded with a reaction microscope at FLASH (the free-electron laser at Hamburg) at an intensity of approximately 1 x 10(14) W/cm2 exploring the dynamics of the two fundamental two-photon-two-electron reaction pathways, namely, sequential and direct (or nonsequential) absorption of the photons. We find strong differences in the recoil-ion momentum patterns for the two mechanisms pointing to the significantly different two-electron emission dynamics and thus provide serious constraints for theoretical models.

Published

2008

10. Binary and recoil collisions in strong field double ionization of helium.

Author

Staudte A, Ruiz C, Schöffler M, Schössler S, Zeidler D, Weber T, Meckel M, Villeneuve DM, Corkum PB, Becker A, and Dörner R

Abstract

We have investigated the correlated momentum distribution of both electrons from nonsequential double ionization of helium in a 800 nm, 4.5 x 10(14 W/cm2 laser field. Using very high resolution coincidence techniques, we find a so-far unobserved fingerlike structure in the correlated electron momentum distribution. The structure can be interpreted as a signature of the microscopic dynamics in the recollision process. We identify features corresponding to the binary and recoil lobe in field-free (e,2e) collisions. This interpretation is supported by analyzing ab initio solutions of a fully correlated three-dimensional helium model.

Published

2007

11. Experimental separation of virtual photon exchange and electron transfer in interatomic coulombic decay of neon dimers.

Author

Jahnke T, Czasch A, Schöffler M, Schössler S, Käsz M, Titze J, Kreidi K, Grisenti RE, Staudte A, Jagutzki O, Schmidt LP, Weber T, Schmidt-Böcking H, Ueda K, and Dörner R

Abstract

We investigate the interatomic Coulombic decay (ICD) of neon dimers following photoionization with simultaneous excitation of the ionized atom (shakeup) in a multiparticle coincidence experiment. We find that, depending on the parity of the excited state, which determines whether ICD takes place via virtual dipole photon emission or overlap of the wave functions, the decay happens at different internuclear distances, illustrating that nuclear dynamics heavily influence the electronic decay in the neon dimer.

Published

2007

12. Attosecond strobing of two-surface population dynamics in dissociating H2+.

Author

Staudte A, Pavicić D, Chelkowski S, Zeidler D, Meckel M, Niikura H, Schöffler M, Schössler S, Ulrich B, Rajeev PP, Weber T, Jahnke T, Villeneuve DM, Bandrauk AD, Cocke CL, Corkum PB, and Dörner R

Abstract

Using H2+ and D2+, we observe two-surface population dynamics by measuring the kinetic energy of the correlated ions that are created when H2+ (D2+) ionize in short (40-140 fs) and intense (10(14) W/cm2) infrared laser pulses. Experimentally, we find a modulation of the kinetic energy spectrum of the correlated fragments. The spectral progression arises from a hitherto unexpected spatial modulation on the excited state population, revealed by Coulomb explosion. By solving the two-level time-dependent Schrödinger equation, we show that an interference between the net-two-photon and the one-photon transition creates localized electrons which subsequently ionize.

Published

2007

13. Partial photoionization cross sections and angular distributions for double excitation of helium up to the N = 13 threshold.

Author

Czasch A, Schöffler M, Hattass M, Schössler S, Jahnke T, Weber T, Staudte A, Titze J, Wimmer C, Kammer S, Weckenbrock M, Voss S, Grisenti RE, Jagutzki O, Schmidt LP, Schmidt-Böcking H, Dörner R, Rost JM, Schneider T, Liu CN, Bray I, Kheifets AS, and Bartschat K

Abstract

Partial photoionization cross sections sigmaN(Egamma) and photoelectron angular distributions betaN(Egamma) were measured for the final ionic states He+ (N > 4) in the region between the N = 8 and N = 13 thresholds (Egamma > 78.155 eV) using the cold target recoil ion momentum spectroscopy technique (COLTRIMS). Comparison of the experimental data with two independent sets of theoretical predictions reveals disagreement for the branching ratios to the various HeN(+) states. The angular distributions just below the double ionization threshold suggest an excitation process for highly excited N states similar to the Wannier mechanism for double ionization.

Published

2005

14. Experimental observation of interatomic coulombic decay in neon dimers.

Author

Jahnke T, Czasch A, Schöffler MS, Schössler S, Knapp A, Käsz M, Titze J, Wimmer C, Kreidi K, Grisenti RE, Staudte A, Jagutzki O, Hergenhahn U, Schmidt-Böcking H, and Dörner R

Abstract

Recently Cederbaum et al. [Phys. Rev. Lett. 79, 4778 (1997)]] predicted a new decay channel of excited atoms and molecules termed interatomic Coulombic decay (ICD). In ICD the deexcitation energy is transferred via virtual photon exchange to a neighboring atom, which releases it by electron emission. We report on an experimental observation of ICD in 2s ionized neon dimers. The process is unambiguously identified by detecting the energy of two Ne1+ fragments and the ICD electron in coincidence, yielding a clean, background free experimental spectral distribution of the ICD electrons.

Published

2004

15. Mechanisms of photo double ionization of helium by 530 eV photons.

Author

Knapp A, Kheifets A, Bray I, Weber T, Landers AL, Schössler S, Jahnke T, Nickles J, Kammer S, Jagutzki O, Schmidt LP, Osipov T, Rösch J, Prior MH, Schmidt-Böcking H, Cocke CL, and Dörner R

Abstract

We have measured fully differential cross sections for photo double ionization of helium 450 eV above the threshold. We have found an extremely asymmetric energy sharing between the photoelectrons and an angular asymmetry parameter beta approximately 2 and beta approximately 0 for the fast and slow electrons, respectively. The electron angular distributions show a dominance of the shakeoff for 2 eV electrons and clear evidence of an inelastic electron-electron scattering at an electron energy of 30 eV. The data are in excellent agreement with convergent close-coupling calculations.

Published

2002

16. Circular dichroism in K-shell ionization from fixed-in-space CO and N2 molecules.

Author

Jahnke T, Weber T, Landers AL, Knapp A, Schössler S, Nickles J, Kammer S, Jagutzki O, Schmidt L, Czasch A, Osipov T, Arenholz E, Young AT, Díez Muiño R, Rolles D, García de Abajo FJ, Fadley CS, Van Hove MA, Semenov SK, Cherepkov NA, Rösch J, Prior MH, Schmidt-Böcking H, Cocke CL, and Dörner R

Abstract

We have measured the angular distributions of 1s photoelectrons excited by circularly and linearly polarized light from fixed-in-space CO and N2 molecules, in the vicinity of their shape resonances. A strong circular dichroism, i.e., a strong dependence on the sense of rotation of the polarization vector of the photons, is found for both molecules. State-of-the-art one-electron multiple scattering and partially correlated random phase approximation calculations are in good agreement with many, but not all, aspects of the experimental data.

Published

2002