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168 results on '"Houver, J. C."'

1. Dissociative photoionization of NO across a shape resonance in the XUV range using circularly polarized synchrotron radiation

Author

Veyrinas, K, Saquet, N, Poullain, S Marggi, Lebech, M, Houver, J-C, Lucchese, RR, and Dowek, D

Subjects
Physical Sciences, Chemical Sciences, Atomic, Molecular and Optical Physics, Physical Chemistry, Engineering, Chemical Physics, Chemical sciences, Physical sciences
Abstract

We report benchmark results for dissociative photoionization (DPI) spectroscopy and dynamics of the NO molecule in the region of the σ* shape resonance in the ionization leading to the NO+(c3Π) ionic state. The experimental study combines well characterized extreme ultraviolet (XUV) circularly polarized synchrotron radiation, delivered at the DESIRS beamline (SOLEIL), with ion-electron coincidence 3D momentum spectroscopy. The measured (N+, e) kinetic energy correlation diagrams reported at four discrete photon energies in the extended 23-33 eV energy range allow for resolving the different active DPI reactions and underline the importance of spectrally resolved studies using synchrotron radiation in the context of time-resolved studies where photoionization is induced by broadband XUV attosecond pulses. In the dominant DPI reaction which leads to the NO+(c3Π) ionic state, photoionization dynamics across the σ* shape resonance are probed by molecular frame photoelectron angular distributions where the parallel and perpendicular transitions are highlighted, as well as the circular dichroism CDAD(θe) in the molecular frame. The latter also constitute benchmark references for molecular polarimetry. The measured dynamical parameters are well described by multichannel Schwinger configuration interaction calculations. Similar results are obtained for the DPI spectroscopy of highly excited NO+ electronic states populated in the explored XUV photon energy range.

Published
2019

5. Angle-resolved RABBITT : from atoms to molecules

Author

Joseph, J, primary, Holzmeier, F, additional, Bresteau, D, additional, Spezzani, C, additional, Ruchon, T, additional, Hergott, J F, additional, Tcherbakoff, O, additional, D’Oliveira, P, additional, Lucchese, R R, additional, Houver, J C, additional, Carré, B, additional, and Dowek, D, additional

Published
2020
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9. Valence and inner-valence shell dissociative photoionization of CO in the 26-33 eV range. II. Molecular-frame and recoil-frame photoelectron angular distributions.

Author

Lebech, M., Houver, J. C., Raseev, G., dos Santos, A. S., Dowek, D., and Lucchese, Robert R.

Subjects
*PHOTOIONIZATION of gases, *VALENCE (Chemistry), *PHOTOELECTRONS, *ANGULAR distribution (Nuclear physics), *PHOTOEMISSION, *MOLECULAR orbitals, *ESTIMATION theory, *COUPLING reactions (Chemistry)
Abstract

Experimental and theoretical results for molecular-frame photoemission are presented for inner-valence shell photoionization of the CO molecule induced by linearly and circularly polarized light. The experimental recoil frame photoelectron angular distributions (RFPADs) obtained from dissociative photoionization measurements where the velocities of the ionic fragment and photoelectron were detected in coincidence, are compared to RFPADs computed using the multichannel Schwinger configuration interaction method. The formalism for including a finite lifetime of the predissociative ion state is presented for the case of general elliptically polarized light, to obtain the RFPAD rather than the molecular frame photoelectron angular distribution (MFPAD), which would be obtained with the assumption of instantaneous dissociation. We have considered photoionization of CO for the photon energies of 26.0 eV, 29.5 eV, and 32.5 eV. A comparison of experimental and theoretical RFPADs allows us to identify the ionic states detected in the experimental studies. In addition to previously identified states, we found evidence for the 2 2Δ state with an ionization potential of 25.3 eV and 2Σ+ states with ionization potentials near 32.5 eV. A comparison of the experimental and theoretical RFPADs permits us to estimate predissociative lifetimes of 0.25-1 ps for some of the ion states. Consideration of the MFPADs of a series of 2Π ion states indicates the importance of inter-channel coupling at low photoelectron kinetic energy and the limitations of a single-channel analysis based on the corresponding Dyson orbitals. [ABSTRACT FROM AUTHOR]

Published
2012
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10. Valence and inner-valence shell dissociative photoionization of CO in the 26–33 eV range. I. Ion-electron kinetic energy correlation and laboratory frame photoemission.

Author

Lebech, M., Houver, J. C., and Dowek, D.

Subjects
*CARBON monoxide, *VALENCE (Chemistry), *PHOTOIONIZATION, *PHOTOEMISSION, *MOLECULES, *STATISTICAL correlation
Abstract

The (VA+, Ve, e⁁) vector correlation method, combining imaging and time-of-flight resolved electron-ion coincidence techniques, is used to probe dissociative photoionization (DPI) of CO induced by vacuum ultra violet linearly or circularly polarized synchrotron radiation in the 26–33 eV photon excitation energy range. It provides original information about both the photoionization dynamics of the CO molecule and the dissociation dynamics of the CO+ molecular ions. The explored region corresponds to valence and inner-valence CO+ ionic states, which involve doubly or multiply excited electronic configurations. In this paper I we identify up to 17 DPI reaction pathways by the position of the intermediate CO+ molecular states in the Franck–Condon region and the (C++O) or (O++C) dissociation limits to which they correlate. For these processes we report the laboratory frame βC+/O+ and βe asymmetry parameters as well as the relative branching ratios in selected binding energy bands. The I(χ,θe,φe) molecular frame photoelectron angular distributions for selected PI processes will be reported in a companion paper II and compared with multichannel Schwinger configuration interaction ab initio calculations of these observables. [ABSTRACT FROM AUTHOR]

Published
2009
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11. Molecular frame and recoil frame photoelectron angular distributions from dissociative photoionization of NO2.

Author

Toffoli, Daniele, Lucchese, Robert R., Lebech, M., Houver, J. C., and Dowek, D.

Subjects
PHOTOELECTRONS, PHOTOIONIZATION, NITROGEN oxides, MOLECULES, ELECTRONS, PHOTONS
Abstract

The authors report measured and computed molecular frame photoelectron angular distributions (MFPADs) and recoil frame photoelectron angular distributions (RFPADs) for the single photon ionization of the nonlinear molecule NO2 leading to the (1a2)-1 b 3A2 and (4a1)-1 3A1 states of NO2+. Experimentally, the RFPADs were obtained using the vector correlation approach applied to the dissociative photoionization (DPI) involving these molecular ionic states. The polar and azimuthal angle dependences of the photoelectron angular distributions are measured relative to the reference frame provided by the ion recoil axis and direction of polarization of the linearly polarized light. Experimental results are reported for the photon excitation energies hν=14.4 and 22.0 eV. Theoretically the authors give expressions for both the MFPAD and the RFPAD. They show that the functional form in the recoil frame, where an average over the azimuthal dependence of the molecular fragments about the recoil direction is made, is identical to that they have earlier found for the DPI experiments performed on linear molecules. MFPADs were then computed using single-center expansion techniques within the fixed-nuclei frozen-core Hartree-Fock approximation. The computed cross sections for ionization to the (1a2)-1 b 3A2 state show a strong propensity for ionization with the polarization of the light perpendicular to the plane of the molecule, whereas the ionization to the (4a1)-1 3A1 state of the ion is of similar intensity for all orientations of the polarization of the light in the molecular frame. These qualitative features of the MFPAD are also evident in the RFPAD. The RFPAD for ionization leading to the (1a2)-1 b 3A2 state is strongly peaked in the perpendicular orientation, whereas the RFPAD for ionization leading to the (4a2)-1 fragments is ∼50° relative to the symmetry axis of the initial C3A1 state is much more nearly isotropic. Comparison between experimental and theoretical RFPADs indicates that the recoil angle for NO+ fragments is ∼50° relative to the symmetry axis of the initial C2v symmetry of the NO2 molecule in the ionization leading to the (1a2)-1 b 3A2 state and the recoil angle is ∼120° for the O+ fragment for ionization leading to the (4a1)-1 3A1 state. [ABSTRACT FROM AUTHOR]

Published
2007
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12. Dissociative photoionization of N2O in the region of the N2O+(B 2Π) state studied by ion–electron velocity vector correlation.

Author

Lebech, M., Houver, J. C., Dowek, D., and Lucchese, R. R.

Subjects
*PHOTOIONIZATION of gases, *NITROUS oxide, *SYNCHROTRON radiation, *PHOTOELECTRONS, *ELECTRON scattering, *ANISOTROPY
Abstract

Dissociative direct photoionization of the N2O(X 1Σ+) linear molecule via the N2O+(B 2Π) ionic state induced by linearly polarized synchrotron radiation P in the 18–22 eV photon energy range is investigated using the (VA+,Ve,P) vector correlation method, where VA+ is the nascent velocity vector of the NO+, N2+, or O+ ionic fragment and Ve that of the photoelectron. The DPI processes are identified by the ion–electron kinetic energy correlation, and the IχA+(θe,[lowercase_phi_synonym]e) molecular frame photoelectron angular distributions (MFPADs) are reported for the dominant reaction leading to NO+(X 1Σ+,v)+N(2D)+e. The measured MFPADs are found in satisfactory agreement with the reported multichannel Schwinger configuration interaction calculations, when bending of the N2O+(B 2Π) molecular ion prior to dissociation is taken into account. A significant evolution of the electron scattering anisotropies is observed, in particular in the azimuthal dependence of the MFPADs, characteristic of a photoionization transition between a neutral state of Σ symmetry and an ionic state of Π symmetry. This interpretation is supported by a simple model describing the photoionization transition by the coherent superposition of two sσ and dδ partial waves and the associated Coulomb phases. © 2004 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published
2004
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13. Complete description of linear molecule photoionization achieved by vector correlations using the light of a single circular polarization.

Author

Lebech, M., Houver, J. C., Lafosse, A., Dowek, D., Alcaraz, C., Nahon, L., and Lucchese, R. R.

Subjects
*PHOTOIONIZATION, *STATISTICAL correlation, *NITRIC oxide, *VECTOR spaces, *MATRICES (Mathematics)
Abstract

In this paper we demonstrate that the vector correlation approach for the study of dissociative photoionization (DPI) of linear molecules enables us to achieve a complete description of molecular photoionization by performing a single experiment using only one state of circularly, or elliptically, polarized light. This is illustrated by the derivation of the complex dipole matrix elements for the benchmark DPI reaction of the NO molecule, where (4σ)[SUP-1] inner-valence ionization is induced by left-handed circularly polarized synchrotron radiation at hν= 23.65 eV. The importance of electronic correlation for this process is emphasized by comparing the experimental results with multichannel Schwinger configuration interaction calculations. The energy dependence of the transition matrix elements and that of the electronic correlation in the 25-40 eV energy range are illustrated by the calculations and compared with the present results and recent experimental studies at 40.8 eV. [ABSTRACT FROM AUTHOR]

Published
2003
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14. Dissociative photoionization of N[sub 2]O in the region of the N[sub 2]O[sup +](C [sup 2]Σ[sup +]) state, studied by ion–electron velocity vector correlation.

Author

Lebech, M., Houver, J. C., Dowek, D., and Lucchese, R. R.

Subjects
*NITROGEN dioxide, *DISSOCIATION (Chemistry), *PHOTOIONIZATION
Abstract

Imaging and time-of-flight-resolved coincidence techniques are combined to extend the (V[SUBA+],V[SUBe],P) vector correlation method to the study of dissociative photoionization of small polyatomic molecules breaking into two heavy fragments. Dissociative photoionization (DPI) of the N[SUB2]O linear molecule into the N[SUB2]O[SUP+](C[SUP2]Σ[SUP+]) ionic state, induced by linearly polarized synchrotron radiation (P), is chosen as an example. The ion-electron kinetic energy correlation enables the identification of all the DPI processes producing the NO[SUP+], N[SUP+], N[SUP+][SUB2], and O[SUP+] fragments. The l[SUBxA+](Θ[SUBe], ø[SUBe]) molecular frame photoelectron angular distributions (MFPADs), deduced from the spatial analysis of the (V[SUBNo+/N+],V[SUBe],P) vector correlations, exhibit remarkable features. When the N[SUB2]O molecule is aligned parallel to the polarization axis, a preferred electron emission from the N[SUB2]O[SUP+] molecular ion in the direction perpendicular to the molecular axis, as well as a strong forward-backward asymmetry that favors electron emission along the molecular axis in the same direction as the N[SUP+] or N fragment, are demonstrated. The measured MFPADs are found in good agreement with the reported multichannel Schwinger configuration interaction calculations, when molecular rotation prior to dissociation is taken into account. This comparison provides an estimation of the lifetime of the N[SUB2]O[SUP+](C[SUP2]Σ[SUP+]) state prior to dissociation into the dominant channels [NO[SUP+](X[SUP1]Σ[SUP+])+N([SUP2]P)] and [N[SUP+]([SUP3]P)+NO(X[SUP2]π)], which is found to be about 2 ps. [ABSTRACT FROM AUTHOR]

Published
2002
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15. Vector correlations in dissociative photoionization of O[sub 2] in the 20–28 eV range. II. Polar and azimuthal dependence of the molecular frame photoelectron angular distribution.

Author

Lafosse, A., Brenot, J. C., Guyon, P. M., Houver, J. C., Golovin, A. V., Lebech, M., Dowek, D., Lin, P., and Lucchese, R. R.

Subjects
PHOTOIONIZATION, OXYGEN
Abstract

A combined experimental and theoretical study of the polar and azimuthal dependence of the molecular frame photoelectron angular distributions (MFPADs) for inner-valence-shell photoionization of the O[SUB2] molecule into the O[SUP+,SUB2](B [SUP2]Σ[SUP-,SUBg], 3 [SUP2]Π[SUBu], c [SUP4]Σ[SUP-,SUBu]) states is reported. The measured MFPADs, for each orientation of the molecular axis with respect to the linear polarization of the synchrotron radiation, are derived from the spatial analysis of the (V[SUBo+],V[SUBe],P) vector correlation, where the nascent ion and electron velocity vectors V[SUBo+] and V[SUBe] are determined for each dissociative photoionization (DPI) event using imaging and time of flight resolved coincidence technique as described in the companion paper of this series [J. Chem. Phys. 114, 6605 (2001)]. Expressed in the general form of four F[SUBLN](θ[SUBe]) functions which contain all the dynamical information about the photoionization processes, they are compared with the MFPADs computed using the multichannel Schwinger configuration interaction method. A very satisfactory agreement is found. When the lifetime of the O[SUP+,SUB2] ionic states is a significant fraction of the rotational period, the rotational motion of the molecule is included in the quantal derivation of the MFPADs. Measured MFPADs are also reported for the additional DPI process identified in Paper I, and for DPI involving the excitation of the neutral (3 [SUP2]Π[SUBu],4s σ[SUBg]) Rydberg state. [ABSTRACT FROM AUTHOR]

Published
2002
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16. Ion pair formation in multiphoton excitation of N[O.sub.2] using linearly and circularly polarized femtosecond light pulses: kinetic energy distribution and fragment recoil anisotropy

Author

Elkharrat, C., Picard, Y. J., Billaud, P., Cornaggia, C., Garzella, D., Perdrix, M., Houver, J. C., Lucchese, R. R., and Dowek, D.

Subjects
Lasers -- Usage, Nitrogen dioxide -- Chemical properties, Nitrogen dioxide -- Optical properties, Photolysis -- Analysis, Polarization (Light) -- Analysis, Laser, Chemicals, plastics and rubber industries
Published
2010

18. Circular dichroism in molecular-frame photoelectron angular distributions in the dissociative photoionization of H2 and D2 molecules

Author

Pérez Torres, Jhon Fredy, Sanz Vicario, José Luis, Veyrinas, K., Billaud, P., Picard, Y. J., Elkharrat, C., Marggi Poullain, S., Saquet, N., Lebech, M., Houver, J. C., Martín García, Fernando, Dowek, D., and UAM. Departamento de Química

Subjects
Dicroísmo circular, Photoelectricity, Functional analysis, Dissociative photoionization, Photoelectron angular distributions, Fotoelectricidad, Physics::Atomic and Molecular Clusters, Dicroism, Química, Circular dichroism, Análisis funcional, Dicroísmo
Abstract

The presence of net circular dichroism in the photoionization of nonchiral homonuclear molecules has been put in evidence recently through the measurement of molecular-frame photoelectron angular distributions in dissociative photoionization of H2 [Dowek, Phys. Rev. Lett. 104, 233003 (2010)]. In this work we present a detailed study of circular dichroism in the photoelectron angular distributions of H2 and D2 molecules, oriented perpendicularly to the propagation vector of the circularly polarized light, at different photon energies (20, 27, and 32.5 eV). Circular dichroism in the angular distributions at 20 and to a large extent 27 eV exhibits the usual pattern in which inversion symmetry is preserved. In contrast, at 32.5 eV, the inversion symmetry breaks down, which eventually leads to total circular dichroism after integration over the polar emission angle. Time-dependent ab initio calculations support and explain the observed results for H2 in terms of quantum interferences between direct photoionization and delayed autoionization from the Q1 and Q2 doubly excited states into ionic states (1sσg and 2pσu) of different inversion symmetry. Nevertheless, for D2 at 32.5 eV, there is a particular case where theory and experiment disagree in the magnitude of the symmetry breaking: when D+ ions are produced with an energy of around 5 eV. This reflects the subleties associated to such simple molecules when exposed to this fine scrutiny, We are very grateful to L. Nahon and G. Garcia for fruitful cooperation, J. F. Gil for technical support, and the SOLEIL general staff for smoothly operating the facility. We gratefully acknowledge the contribution of S. Lupone and S. Damoy (ISMO). N.S. and D.D. acknowledge the support of the Agence Nationale de la Recherche under ATTOWAVE Contract No. ANR-09-BLAN-0031-01. We also thank Mare Nostrum BSC and CCC-UAM for allocation of computer time. The work was supported by the Spanish Ministerio de Ciencia e Innovación (MICINN) Project No. FIS2010-151127 and ERA-Chemistry Project No. PIM2010EEC-00751, the Spanish Ministerio de Economía y Competitividad (MINECO) Project No. FIS2013-42002-R, the XCHEM Advanced Grant No. GA-290853 of the European Research Council, the European Cooperation in Science and Technology (COST) XLIC Action No. CM1204, and the Vicerrectoría de Investigacion at Universidad de Antioquia (CODI Project No. E01538 and Estrategia de Sostenibilidad 2013-2014)

Published
2014

22. Circular dichroism in molecular-frame photoelectron angular distributions in the dissociative photoionization of H-2 and D-2 molecules

Author

Perez-Torres, J. F., Sanz-Vicario, J. L., Veyrinas, K., Billaud, P., Picard, Y. J., Elkharrat, C., Marggi Poullain, S., Saquet, N., Lebech, Mogens, Houver, J. C., Martin, F., Dowek, D., Perez-Torres, J. F., Sanz-Vicario, J. L., Veyrinas, K., Billaud, P., Picard, Y. J., Elkharrat, C., Marggi Poullain, S., Saquet, N., Lebech, Mogens, Houver, J. C., Martin, F., and Dowek, D.

Published
2014

23. Spectral dependence of photoemission in multiphoton ionization of NO2 by femtosecond pulses in the 375–430 nm range.

Author

Poullain, S. Marggi, Cireasa, R., Cornaggia, C., Simon, M., Marin, T., Guillemin, R., Houver, J. C., Lucchese, R. R., and Dowek, D.

Abstract

We investigate the multiphoton ionization of NO2 using tunable (430–375 nm) femtosecond pulses and photoelectron–photoion coincidence momentum spectroscopy. In order to understand the complex electronic and nuclear photodynamics at play following absorption of three to five photons, we also report extended photoionization calculations using correlated targets and coupled channels. Exploring the multiphoton dissociative ionization (MPDI) and multiphoton ionization (MPI) processes over such a broad energy range enables us to lend further support to our work carried out around 400 nm of a femtosecond laser [S. Marggi Poullain et al., J. Phys. B: At., Mol. Opt. Phys., 2014, 47, 124024]. Two excitation energy regions are identified and discussed in terms of the proposed reaction pathways, highlighting the significant role of Rydberg states, such as the [R*(6a1)−1, 3pσ] Rydberg state, in the NO2 multiphoton excitation and photoionization. These new results support our previous assumption that different bent and linear geometries of the NO2+(X1Σg) ionic state contribute to the MPDI and MPI, consistent with the reported calculations which reveal an important vibronic coupling characterizing the photoemission. Remarkably, the strong anisotropy of the recoil frame photoelectron angular distribution (RFPAD) previously observed at 400 nm appears as a fingerprint across the whole explored photon energy range. [ABSTRACT FROM AUTHOR]

Published
2017
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24. Circular dichroism in molecular-frame photoelectron angular distributions in the dissociative photoionization ofH2andD2molecules

Author

Pérez-Torres, J. F., primary, Sanz-Vicario, J. L., additional, Veyrinas, K., additional, Billaud, P., additional, Picard, Y. J., additional, Elkharrat, C., additional, Poullain, S. Marggi, additional, Saquet, N., additional, Lebech, M., additional, Houver, J. C., additional, Martín, F., additional, and Dowek, D., additional

Published
2014
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29. Circular Dichroism in Photoionization ofH2

Author

Dowek, D., primary, Pérez-Torres, J. F., additional, Picard, Y. J., additional, Billaud, P., additional, Elkharrat, C., additional, Houver, J. C., additional, Sanz-Vicario, J. L., additional, and Martín, F., additional

Published
2010
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32. Resonant double Auger decay in carbonK-shell excitation of CO

Author

Journel, L., primary, Guillemin, R., additional, Haouas, A., additional, Lablanquie, P., additional, Penent, F., additional, Palaudoux, J., additional, Andric, L., additional, Simon, M., additional, Céolin, D., additional, Kaneyasu, T., additional, Viefhaus, J., additional, Braune, M., additional, Li, W. B., additional, Elkharrat, C., additional, Catoire, F., additional, Houver, J.-C., additional, and Dowek, D., additional

Published
2008
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47. Orbital alignment dependence of electron transfer cross sections. IV:1-15 keV Ne+, Ar+-Na(3p) collisions

Author

Thomsen, J. W., Andersen, N., Dowek, D., Houver, J. C., Lauritsen, J. H.V., Müller, U., Pedersen, J. O.P., Salgado, J., Svensson, A., Thomsen, J. W., Andersen, N., Dowek, D., Houver, J. C., Lauritsen, J. H.V., Müller, U., Pedersen, J. O.P., Salgado, J., and Svensson, A.

Abstract

This paper reports experimental results for the influence of target excitation and orbital alignment on the charge exchange process for the systems Ne+, Ar+-Na(3s, 3p) for impact energies in the 1-15 keV range. The cross section parameters are found to depend sensitively on collision velocity and choice of projectile. Using earlier results by Aumayr et al (Z. Phys. D 6 (1987) 145-153) for the Na(3s) target, the relative cross sections are put on an absolute scale. A strong dependence of the total electron transfer cross section on the target state is observed, most dramatically for low energy Ar+ impact for which the cross section for a Na(3p) target is more than 200 times larger than for Na(3s). Time-of-flight spectra show that electron transfer channels with energy defects near zero are strongly preferred. Cross section estimates based on the Demkov-Olson model account well for the major trends observed, but not for the detailed behavior.

Published
1996

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