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442 results on '"Stener, M."'

1. Imaging Molecular Structure through Femtosecond Photoelectron Diffraction on Aligned and Oriented Gas-Phase Molecules

Author

Boll, R., Rouzee, A., Adolph, M., Anielski, D., Aquila, A., Bari, S., Bomme, C., Bostedt, C., Bozek, J. D., Chapman, H. N., Christensen, L., Coffee, R., Coppola, N., De, S., Decleva, P., Epp, S. W., Erk, B., Filsinger, F., Foucar, L., Gorkhover, T., Gumprecht, L., Hoemke, A., Holmegaard, L., Johnsson, P., Kienitz, J. S., Kierspel, T., Krasniqi, F., Kuehnel, K. -U., Maurer, J., Messerschmidt, M., Moshammer, R., Mueller, Nele L. M., Rudek, B., Savelyev, E., Schlichting, I., Schmidt, C., Scholz, F., Schorb, S., Schulz, J., Seltmann, J., Stener, M., Stern, S., Techert, S., Thogersen, J, Trippel, S., Viefhaus, J., Vrakking, M, Stapelfeldt, H., Kuepper, J., Ullrich, J., Rudenko, A., and Rolles, D.

Subjects
Physics - Atomic Physics
Abstract

This paper gives an account of our progress towards performing femtosecond time-resolved photoelectron diffraction on gas-phase molecules in a pump-probe setup combining optical lasers and an X-ray Free-Electron Laser. We present results of two experiments aimed at measuring photoelectron angular distributions of laser-aligned 1-ethynyl-4-fluorobenzene (C8H5F) and dissociating, laseraligned 1,4-dibromobenzene (C6H4Br2) molecules and discuss them in the larger context of photoelectron diffraction on gas-phase molecules. We also show how the strong nanosecond laser pulse used for adiabatically laser-aligning the molecules influences the measured electron and ion spectra and angular distributions, and discuss how this may affect the outcome of future time-resolved photoelectron diffraction experiments., Comment: 24 pages, 10 figures, Faraday Discussions 171

Published
2014
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2. Electronic circular dichroism from real-time propagation in state space.

Author

Monti, M., Stener, M., and Coccia, E.

Subjects
*CIRCULAR dichroism, *TIME-dependent density functional theory, *TIME-dependent Schrodinger equations, *MOLECULAR orbitals, *MAGNETIC moments, *MAGNETIC transitions, *MOLECULAR orientation
Abstract

In this paper, we propose to compute the electronic circular dichroism (ECD) spectra of chiral molecules using a real-time propagation of the time-dependent Schrödinger equation (TDSE) in the space of electronic field-free eigenstates, by coupling TDSE with a given treatment of the electronic structure of the target. The time-dependent induced magnetic moment is used to compute the ECD spectrum from an explicit electric perturbation. The full matrix representing the transition magnetic moment in the space of electronic states is generated from that among pairs of molecular orbitals. In the present work, we show the ECD spectra of methyloxirane, of several conformers of L-alanine, and of the Λ-Co(acac)3 complex, computed from a singly excited ansatz of time-dependent density functional theory eigenstates. The time-domain ECD spectra properly reproduce the frequency-domain ones obtained in the linear-response regime and quantitatively agree with the available experimental data. Moreover, the time-domain approach to ECD allows us to naturally go beyond the ground-state rotationally averaged ECD spectrum, which is the standard outcome of the linear-response theory, e.g., by computing the ECD spectra from electronic excited states. [ABSTRACT FROM AUTHOR]

Published
2023
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6. Diverging conformations guide dipeptide self-assembly into crystals or hydrogels.

Author

Monti, M., Scarel, E., Hassanali, A., Stener, M., and Marchesan, S.

Subjects
CRYSTALS, CIRCULAR dichroism, DIPEPTIDES
Abstract

The prediction of dipeptide assembly into crystals or gels is challenging. This work reveals the diverging conformational landscape that guides self-organization towards different outcomes. In silico and experimental data enabled deciphering of the electronic circular dichroism (ECD) spectra of self-assembling dipeptides to reveal folded or extended conformers as key players. [ABSTRACT FROM AUTHOR]

Published
2023
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15. S2p core level spectroscopy of short chain oligothiophenes.

Author

Baseggio, O., Toffoli, D., Stener, M., Fronzoni, G., de Simone, M., Grazioli, C., Coreno, M., Guarnaccio, A., Santagata, A., and D'Auria, M.

Subjects
OLIGOTHIOPHENES, EPIGALLOCATECHIN gallate, CHAIN length (Chemistry), X-ray photoelectron spectroscopy, INFRARED spectroscopy
Abstract

The Near-Edge X-ray-Absorption Fine-Structure (NEXAFS) and X-ray Photoemission Spectroscopy (XPS) of short-chain oligothiophenes (thiophene, 2,20-bithiophene, and 2,20:50,200-terthiophene) in the gas phase have been measured in the sulfur L2,3-edge region. The assignment of the spectral features is based on the relativistic two-component zeroth-order regular approximation time dependent density functional theory approach. The calculations allow us to estimate both the contribution of the spin-orbit splitting and of the molecular-field splitting to the sulfur binding energies and give results in good agreement with the experimental measurements. The deconvolution of the calculated S2p NEXAFS spectra into the two manifolds of excited states converging to the LIII and LII edges facilitates the attribution of the spectral structures. The main S2p NEXAFS features are preserved along the series both as concerns the energy positions and the nature of the transitions. This behaviour suggests that the electronic and geometrical environment of the sulfur atom in the three oligomers is relatively unaffected by the increasing chain length. This trend is also observed in the XPS spectra. The relatively simple structure of S2p NEXAFS spectra along the series reflects the localized nature of the virtual states involved in the core excitation process. [ABSTRACT FROM AUTHOR]

Published
2017
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21. S 2p and P 2p Core Level Spectroscopy of PPT Ambipolar Material and Its Building Block Moieties

Author

Bernes, E., Fronzoni, G., Stener, M., Guarnaccio, A., Zhang, T., Grazioli, C., Johansson, Fredrik, Coreno, M., de Simone, M., Puglia, Carla, Toffoli, D., Bernes, E., Fronzoni, G., Stener, M., Guarnaccio, A., Zhang, T., Grazioli, C., Johansson, Fredrik, Coreno, M., de Simone, M., Puglia, Carla, and Toffoli, D.

Abstract

The near-edge X-ray absorption fine structure (NEXAFS and X-ray photoelectron (XP) spectra of gas-phase 2,8-bis-(diphenylphosphoryl)dibenzo[b,d]thiophene (PPT) and triphenylphosphine oxide (TPPO) have been measured at the S and P L-II,L-III-edge regions. The time-dependent density functional theory (TDDFT) based on the relativistic two-component zeroth-order regular approximation approach has been used to provide an assignment of the experimental spectra, giving the contribution of the spin-orbit splitting and of the molecular-field splitting to the sulfur and phosphor binding energies. Computed XP and NEXAFS spectra agree well with the experimental measurements. In going from dibenzothiophene and TPPO to PPT, the nature of the most intense S 2p and P 2p NEXAFS features are preserved; this trend suggests that the electronic and geometric behaviors of the S and P atoms in the two building block moieties are conserved in the more complex system of PPT. This work enables us to shed some light onto the structure of the P-O bond, a still highly debated topic in the chemical literature. Since the S 2p and P 2p NEXAFS intensities provide specific information on the higher-lying localized sigma*(C-S) and sigma*(P-O) virtual MOs, we have concluded that P 3d AOs are not involved in the formation of the P-O bond. Moreover, the results support the mechanism of negative hyperconjugation, by showing that transitions toward sigma*(P-O) states occur at lower energies with respect to those toward it pi*(P-O) states.

Published
2020
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23. Study of the electronic structure of short chain oligothiophenes.

Author

Grazioli, C., Baseggio, O., Stener, M., Fronzoni, G., de Simone, M., Coreno, M., Guarnaccio, A., Santagata, A., and D'Auria, M.

Subjects
THIOPHENES spectra, ELECTRONIC structure, OLIGOTHIOPHENES, PHOTOELECTRON spectroscopy, X-ray absorption near edge structure, DENSITY functional theory, BINDING energy
Abstract

The electronic structure of short-chain thiophenes (thiophene, 2,2'2'-bithiophene, and 2,2':5',2"-terthiophene) in the gas phase has been investigated by combining the outcomes of Near-Edge X-ray-Absorption Fine-Structure (NEXAFS) and X-ray Photoemission Spectroscopy (XPS) at the C K-edge with those of density functional theory (DFT) calculations. The calculated NEXAFS spectra provide a comprehensive description of the main experimental features and allow their attribution. The evolution of the C1s NEXAFS spectral features is analyzed as a function of the number of thiophene rings; a tendency to stabilization for increasing chain length is found. The computation of the binding energy allows to assign the experimental XPS peaks to the different carbon sites on the basis of both the inductive effects generated by the presence of the S atom as well as of the differential aromaticity effects. [ABSTRACT FROM AUTHOR]

Published
2017
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25. Time-dependent density functional theory calculations of ligand K edge and metal L edge X-ray absorption of a series of oxomolybdenum complexes

Author

Fronzoni, G., Stener, M., Reduce A., and Decleva, P.

Subjects
Absorption spectra -- Research, Molybdenum -- Spectra, Molybdenum -- Chemical properties, Density functionals -- Usage, Chemicals, plastics and rubber industries
Abstract

X-ray absorption spectra (XAS) at the Cl and S K edge and molybdenum (Mo) L edge are calculated at the TDDFT level for a series of dioxomolybdenum complexes LMoO2X (L = hydrotris(3,5-dimethyl-1-pyrazolyl)borate, X = Cl, SCH2Ph, OPh), which play an important role in modeling the catalytic cycle of the sulfite oxidase enzyme.

Published
2004

34. Off-resonance photoemission dynamics studied by recoil frame F1s and C1s photoelectron angular distributions of CH3F.

Author

Stener, M., Decleva, P., Mizuno, T., Yoshida, H., and Yagishita, A.

Subjects
*PHOTOELECTRONS, *PHOTOIONIZATION, *MOLECULAR dynamics, *DENSITY functional theory, *MOLECULAR magnetic moments
Abstract

F1s and C1s photoelectron angular distributions are considered for CH3F, a molecule which does not support any shape resonance. In spite of the absence of features in the photoionization cross section profile, the recoil frame photoelectron angular distributions (RFPADs) exhibits dramatic changes depending on both the photoelectron energy and polarization geometry. Time-dependent density functional theory calculations are also given to rationalize the photoionization dynamics. The RFPADs have been compared with the theoretical calculations, in order to assess the accuracy of the theoretical method and rationalize the experimental findings. The effect of finite acceptance angles for both ionic fragments and photoelectrons has been included in the calculations, as well as the effect of rotational averaging around the fragmentation axis. Excellent agreement between theory and experiment is obtained, confirming the good quality of the calculated dynamical quantities (dipole moments and phase shifts). [ABSTRACT FROM AUTHOR]

Published
2014
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35. Electronic Structure Characterization of a Thiophene Benzo-Annulated Series of Common Building Blocks for Donor and Acceptor Compounds Studied by Gas Phase Photoelectron and Photoabsorption Synchrotron Spectroscopies

Author

Toffoli, D., Guarnaccio, A., Grazioli, C., Zhang, Teng, Johansson, Fredrik, de Simone, M., Coreno, M., Santagata, A., D’Auria, M., Puglia, Carla, Bernes, E., Stener, M., Fronzoni, G., Toffoli, D., Guarnaccio, A., Grazioli, C., Zhang, Teng, Johansson, Fredrik, de Simone, M., Coreno, M., Santagata, A., D’Auria, M., Puglia, Carla, Bernes, E., Stener, M., and Fronzoni, G.

Abstract

The near-edge x-ray-absorption fine-structure (NEXAFS) and Xray photoelectron spectroscopy (XPS) spectra of benzo[b]thiophene (BBT) and dibenzothiophene (DBT) in the gas phase have been measured at the carbon Kedge and sulfur L-II,L-III-edge regions. The assignment of the spectral features has been provided by theoretical calculations based on density functional theory (DFT) and its time-dependent generalization (TDDFT) in the linear response regime. Observed trends in computed C 1s and S 2p ionization potentials (IPs) have been rationalized in terms of both the inductive effects due to the presence of S and the increased pi-electrons delocalization arising from the benzoannulation process. The analysis of the NEXAFS carbon K-edge and sulfur L-II,L-III-edge regions regions provided information on both low-lying delocalized virtual pi orbitals, and higher-lying localized sigma*(C-S) states. The evolution of the NEXAFS carbon K-edge spectral features along the series thiophene (T) and derivatives, BBT and DBT, is informative of a stabilizing effect due to increased aromaticity. This effect is however more pronounced in going from T to BBT compared to the introduction of a second annulated phenyl ring in DBT. The nature of the most intense sulfur L-II,L-III-edge NEXAFS spectral features is instead conserved along the series reflecting thus the localized nature of the virtual states involved in the S 2p core-excitation process.

Published
2018
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39. Electronic Structure Characterization of a Thiophene Benzo-Annulated Series of Common Building Blocks for Donor and Acceptor Compounds Studied by Gas Phase Photoelectron and Photoabsorption Synchrotron Spectroscopies

Author

Toffoli, D., primary, Guarnaccio, A., additional, Grazioli, C., additional, Zhang, T., additional, Johansson, F., additional, de Simone, M., additional, Coreno, M., additional, Santagata, A., additional, D’Auria, M., additional, Puglia, C., additional, Bernes, E., additional, Stener, M., additional, and Fronzoni, G., additional

Published
2018
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40. Recoil frame photoelectron angular distributions of BF3: A sensitive probe of the shape resonance in the F 1s continuum.

Author

Mizuno, T., Adachi, J., Miyauchi, N., Kazama, M., Stener, M., Decleva, P., and Yagishita, A.

Subjects
PHOTOELECTRONS, ANGULAR distribution (Nuclear physics), FORCE & energy, DENSITY functionals, COMPARATIVE studies, WAVE functions
Abstract

Recoil frame photoelectron angular distributions (RFPADs) of BF3 molecules are presented over the energy region of the shape resonance in the F 1s continuum. Time-dependent density functional theory calculations are also given to understand the shape resonance dynamics. The RFPADs have been compared with the theoretical calculations. It is found that the RFPADs calculated by the localized core-hole model are in better agreement with the experimental, compared with those by the delocalized core hole. Dipole matrix elements and dipole prepared continuum wavefunctions show that the shape resonance in the F 1s ionization continuum of BF3 is induced by p-partial waves as previously reported by Swanson et al. [J. Chem. Phys. 75, 619 (1981)]. However, due to the couplings with the other partial waves the feature characteristic of the p-partial waves has not been observed in the RFPADs. [ABSTRACT FROM AUTHOR]

Published
2012
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41. Photoabsorption and S 2p photoionization of the SF6 molecule: Resonances in the excitation energy range of 200-280 eV.

Author

Stener, M., Bolognesi, P., Coreno, M., O'Keeffe, P., Feyer, V., Fronzoni, G., Decleva, P., Avaldi, L., and Kivimäki, A.

Subjects
*LIGHT absorption, *PHOTOIONIZATION, *NUCLEAR excitation, *CROSS-sectional method, *DENSITY functionals, *PREDICTION theory, *ANISOTROPY, *FORCE & energy
Abstract

Photoabsorption and S 2p photoionization of the SF6 molecule have been studied experimentally and theoretically in the excitation energy range up to 100 eV above the S 2p ionization potentials. In addition to the well-known 2t2g and 4eg shape resonances, the spin-orbit-resolved S 2p photoionization cross sections display two weak resonances between 200 and 210 eV, a wide resonance around 217 eV, a Fano-type resonance around 240 eV, and a second wide resonance around 260 eV. Calculations based on time-dependent density functional theory allow us to assign the 217-eV and 260-eV features to the shape resonances in S 2p photoionization. The Fano resonance is caused by the interference between the direct S 2p photoionization channel and the resonant channel that results from the participator decay of the S 2s-16t1u excited state. The weak resonances below 210-eV photon energy, not predicted by theory, are tentatively suggested to originate from the coupling between S 2p shake-up photoionization and S 2p single-hole photoionization. The experimental and calculated angular anisotropy parameters for S 2p photoionization are in good agreement. [ABSTRACT FROM AUTHOR]

Published
2011
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42. Spin-orbit effects in the photoabsorption of WAu12 and MoAu12: A relativistic time dependent density functional study.

Author

Stener, M., Nardelli, A., and Fronzoni, G.

Subjects
*GOLD, *LIGHT absorption, *DENSITY functionals, *ABSORPTION, *SPIN excitations, *PHYSICAL & theoretical chemistry
Abstract

The electronic structure of both WAu12 and MoAu12 has been calculated at the density functional theory (DFT) level, employing the zero order regular approximation at the scalar relativistic level and including a spin-orbit coupling. The effect of the inclusion of the spin-orbit coupling is discussed, and the differences assigned to the nature of the encaged atom (W or Mo) are identified. Then, the excitation spectra of both clusters are calculated at the time-dependent DFT level, also in this case at both scalar relativistic and spin-orbit levels. The inclusion of spin-orbit coupling is mandatory for an accurate description in the low energy region. At higher energy, where the density of states is higher, the convoluted intensity can be properly described already at the scalar relativistic level. The consequences of the spin-orbit coupling on the excitation spectrum of the clusters indicate that while in WAu12 the lowest excitations are essentially shifted in energy with respect to the scalar relativistic results, in MoAu12, a dramatic splitting in many lines is actually predicted, revealing a quite different behavior of the two clusters. [ABSTRACT FROM AUTHOR]

Published
2008
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43. 2-amino-1-propanol versus 1-amino-2-propanol: Valence band and C 1s core-level photoelectron spectra.

Author

Catone, D., Turchini, S., Contini, G., Zema, N., Irrera, S., Prosperi, T., Stener, M., Di Tommaso, D., and Decleva, P.

Subjects
CONDUCTION electrons, CONDUCTION bands, PROPANOLS, PHOTOELECTRON spectroscopy, MOLECULAR spectra, ELECTRONIC structure, ATOMIC structure
Abstract

Valence band and C 1s core-level photoelectron spectra of S-(+)-2-amino-1-propanol (alaninol) and S-(+)-1-amino-2-propanol (isopropanolamine) have been studied by means of synchrotron radiation photoelectron spectroscopy in gas phase. The alaninol, the reduced derivative of the alanine, is a good test system of amino acid-like structures. The isopropanolamine, presenting the inversion of the two functional groups of the alaninol at the chiral carbon, offers the opportunity to study the effect of –OH and –NH2 structural position on the photoelectron spectra. The influence of the conformational contribution on the electronic structure and the photoelectron spectra has been interpreted using density functional and ab initio theoretical calculations. Agreement has been achieved by taking into account the presence, in gas phase, of two conformers with different population ratios in both chiral systems. The C 1s core-level spectra of alaninol and isopropanolamine are reported and the peak positions of the three carbon atoms of the molecules are assigned. [ABSTRACT FROM AUTHOR]

Published
2007
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44. Spin-orbit relativistic calculations of the core excitation spectra of SO2.

Author

Fronzoni, G., De Francesco, R., Stener, M., and Decleva, P.

Subjects
SPECTRUM analysis, DENSITY functionals, RELATIVISTIC astrophysics, RELATIVISTIC fluid dynamics, EXCITON theory, FUNCTIONAL analysis
Abstract

The time dependent density functional theory approach within the two-component zero-order relativistic approximation has been applied to the calculation of the core excitation spectra of SO2 molecule. The results obtained reproduce correctly the high resolution experimental spectra and allow the assignment of the spectral features both of the valence and Rydberg regions in the S 1s and O 1s spectra. For the S 2p threshold a correct description of the spin-orbit coupling as well as of the molecular field splitting appears mandatory for a reliable description of the spectrum and a detailed attribution of the complex Rydberg manifold of core excited states. [ABSTRACT FROM AUTHOR]

Published
2007
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45. Photoionization cross section and angular distribution calculations of carbon tetrafluoride.

Author

Toffoli, D., Stener, M., Fronzoni, G., and Decleva, P.

Subjects
*CARBON tetrachloride, *PHOTOIONIZATION, *ATOMIC orbitals, *PHOTOCHEMISTRY, *IONIZATION (Atomic physics), *TETRACHLORIDES
Abstract

Correlation in the photoionization dynamics of carbon tetrafluoride is studied in the framework of the time-dependent density-functional theory (TDDFT) approach by employing a multicentric basis set expansion of the scattering wave function linear combination of atomic orbitals (LCAO) TDDFT. Results obtained with the statistical average of orbital potentials and LB94 exchange-correlation (xc) potentials are compared with photoabsorption, photoionization, and electron-scattering experiments as well as with past theoretical calculations. Inadequacies in both the Vxc parametrizations employed have been suggested from the analysis of the intensity plots for the D 2A1 ionization. The formation of resonant scattering states in selected continuum channels has been studied through the analysis of the dipole-prepared scattering wave function; our findings are then compared with results of electron-scattering calculations. Overall, the LCAO-TDDFT results highlight the effectiveness of the approach for the calculation of the unbound spectrum of fairly large molecules. [ABSTRACT FROM AUTHOR]

Published
2006
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46. Time dependent density functional study of the photoionization dynamics of SF6.

Author

Stener, M., Toffoli, D., Fronzoni, G., and Decleva, P.

Subjects
*SPLINE theory, *ATOMIC orbitals, *PHOTOIONIZATION, *DYNAMICS, *DENSITY functionals, *FUNCTIONAL analysis, *STATISTICAL correlation, *AUGER effect, *ANGULAR momentum (Nuclear physics)
Abstract

The B-spline linear combination of atomic orbitals method has been employed to study the valence and core photoionization dynamics of SF6. The cross section and asymmetry parameter profiles calculated at the time dependent density functional theory level have been found to be in fairly nice agreement with the experimental data, with the quality of the exchange-correlation statistical average of orbital potential results superior to the Van Leeuwen-Baerends 94 (LB94) ones [Phys. Rev. A 49, 2421 (1994)]. The role of response effects has been identified by a comparison of the time dependent density functional theory results with the Kohn-Sham ones interchannel coupling effects and autoionization resonances play an important role at low kinetic energies. Prominent shape resonances features have been analyzed in terms of “dipole prepared” continuum orbitals and interpreted as due to a large angular momentum centrifugal barrier as well as anisotropic (nonspherical) molecular effective potential. Finally, the method has been proven numerically stable, robust, and efficient, thanks to a noniterative implementation of the time dependent density functional theory equations and suitability of the multicentric B-spline basis set to describe continuum states from outer valence to deep core states. [ABSTRACT FROM AUTHOR]

Published
2006
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47. Time dependent density functional study of the photoionization dynamics of SF6.

Author

Stener, M., Toffoli, D., Fronzoni, G., and Decleva, P.

Subjects
SPLINE theory, ATOMIC orbitals, PHOTOIONIZATION, DYNAMICS, DENSITY functionals, FUNCTIONAL analysis, STATISTICAL correlation, AUGER effect, ANGULAR momentum (Nuclear physics)
Abstract

The B-spline linear combination of atomic orbitals method has been employed to study the valence and core photoionization dynamics of SF6. The cross section and asymmetry parameter profiles calculated at the time dependent density functional theory level have been found to be in fairly nice agreement with the experimental data, with the quality of the exchange-correlation statistical average of orbital potential results superior to the Van Leeuwen-Baerends 94 (LB94) ones [Phys. Rev. A 49, 2421 (1994)]. The role of response effects has been identified by a comparison of the time dependent density functional theory results with the Kohn-Sham ones interchannel coupling effects and autoionization resonances play an important role at low kinetic energies. Prominent shape resonances features have been analyzed in terms of “dipole prepared” continuum orbitals and interpreted as due to a large angular momentum centrifugal barrier as well as anisotropic (nonspherical) molecular effective potential. Finally, the method has been proven numerically stable, robust, and efficient, thanks to a noniterative implementation of the time dependent density functional theory equations and suitability of the multicentric B-spline basis set to describe continuum states from outer valence to deep core states. [ABSTRACT FROM AUTHOR]

Published
2006
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48. Theoretical study on the circular dichroism in core and valence photoelectron angular distributions of camphor enantiomers.

Author

Stener, M., Di Tommaso, D., Fronzoni, G., Decleva, P., and Powis, I.

Subjects
*PHOTOELECTRONS, *PHOTOIONIZATION, *DICHROISM, *CAMPHOR, *MULTIPLE scattering (Physics), *IONIZATION (Atomic physics)
Abstract

In the present work the photoelectron circular dichroism of camphor has been theoretically studied using B-spline and continuum multiple scattering-Xα methods, and comparisons are made with available experimental data. In general, rather large dichroism effects have been found for both valence and core (O 1s, C 1s) photoionizations. The agreement between the two calculations reported here and previous experimental measurements for core C 1s data is essentially quantitative. For valence ionization satisfactory agreement between theory and experiment has been obtained and the discrepancies have been attributed to both exchange-correlation potential limitations and the absence of response effects in the adopted formalism. The calculations predict, moreover, important features in the cross-section profiles, which have been discussed in terms of dipole-prepared continuum orbitals. [ABSTRACT FROM AUTHOR]

Published
2006
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49. Valence photoionization dynamics in circular dichroism of chiral free molecules: The methyl-oxirane.

Author

Stranges, S., Turchini, S., Alagia, M., Alberti, G., Contini, G., Decleva, P., Fronzoni, G., Stener, M., Zema, N., and Prosperi, T.

Subjects
PHOTOIONIZATION, CHEMICAL bonds, ETHYLENE oxide, PHOTONS, ENANTIOMERS, VALENCE (Chemistry), CIRCULAR dichroism
Abstract

The dynamical behavior of circular dichroism for valence photoionization processes in pure enantiomers of randomly oriented methyl-oxirane molecules has been studied by circularly polarized synchrotron radiation. Experimental results of the dichroism coefficient obtained for valence photoionization processes as a function of photon energy have been compared with theoretical values predicted by state-of-the-art ab initio density-functional theory. The circular dichroism measured at low electron kinetic energies was as large as 11%. Trends in the experimental dynamical behavior of the dichroism coefficients Di(ω) have been observed. Agreement between experimental and theoretical results permits unambiguous identification of the enantiomer and of the individual orbitals. [ABSTRACT FROM AUTHOR]

Published
2005
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50. Time-dependent density-functional theory for molecular photoionization with noniterative algorithm and multicenter B-spline basis set: CS2 and C6H6 case studies.

Author

Stener, M., Fronzoni, G., and Decleva, P.

Subjects
*PHOTOCHEMISTRY, *CHEMOSPHERE, *MOLECULES, *ALGORITHMS, *EQUATIONS, *CHEMICAL reactions
Abstract

In this work a new direct (noniterative) algorithm to solve the time-dependent density-functional theory equations for molecular photoionization has been proposed and implemented, using a multicentric basis set expansion of B-spline functions and complete exploiting of the molecular point-group symmetry. The method has been applied to study the photoionization dynamics of CS2 and C6H6: the results confirmed the expectation of large screening effects in CS2. For C6H6 the screening effects have been found to play a minor role than in CS2, however, also in this case the quality of the final results is definitely improved. The method has proven suitable to study with confidence molecules of medium size, and there is still room for further improvement working on more elaborate treatment of the exchange-correlation functional. [ABSTRACT FROM AUTHOR]

Published
2005
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