Resonant X-Ray Emission Spectroscopy of Molecular Oxygen

Glans, Peter; Gunnelin, Kerstin M.; Skytt, P.; Guo, Jinghua; Wassdahl, N.; Nordgren, Joseph; Ågren, Hans; Gel’mukhanov, Faris; Warwick, Tony; Rotenberg, Eli

doi:10.1103/physrevlett.76.2448

Cited by 130 publications

(102 citation statements)

References 30 publications

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“…This intrinsic asymmetry with respect to emission into the inner and outer regions of the molecule explains asymmetric electron emission behavior in diatomic homonuclear molecules [12], which was for a long time not understood well, because it was in distinct contrast to results on the same subject obtained by soft x-ray experiments instead of electron emission [13]. Such energy resolved coincidence spectroscopy of intramolecular scattering processes has a great potential for time-dependent studies of dissociating molecular systems.…”

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confidence: 74%

Intramolecular Electron Scattering and Electron Transfer Following Autoionization in Dissociating Molecules

et al. 2004

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Resonant Auger decay of core-excited molecules during ultrafast dissociation leads to a Doppler shift of the emitted electrons depending on the direction of the electron emission relative to the dissociation axis. We have investigated this process by angle-resolved electron-fragment ion coincidence spectroscopy. Electron energy spectra for selected emission angles for the electron relative to the molecular axis reveal the occurrence of intermolecular electron scattering and electron transfer following the primary emission. These processes amount to approximately 25% of the resonant atomic Auger intensity emitted in the studied transition.

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confidence: 74%

Intramolecular Electron Scattering and Electron Transfer Following Autoionization in Dissociating Molecules

et al. 2004

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“…Figure 4 shows the dispersion and the FWHM of the L 3 -N 4,5 emission line in CH 3 I and of the Cl K-L emission line in CH 3 Cl as a function of the incident photon energy detuning from the resonance. The error bars indicated on the graphs in Fig.…”

Section: Resultsmentioning

confidence: 99%

“…For example, it was demonstrated that a dynamical symmetry breaking in molecules occurring on the time scale of the core-hole lifetime can be studied due to the symmetry dependence of the x-ray emission intensities on the selection rules. 2,3 Polarization and anisotropy of x-ray emission can be used to study orbital components, bond directions, and molecular orbital symmetries. [4][5][6] Recently, molecular-field effects a) Author to whom correspondence should be addressed.…”

Section: Introductionmentioning

confidence: 99%

Resonant inelastic x-ray scattering at the limit of subfemtosecond natural lifetime

Marchenko

Journel

Marin

et al. 2011

The Journal of Chemical Physics

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We present measurements of the resonant inelastic x-ray scattering (RIXS) spectra of the CH 3 I molecule in the hard-x-ray region near the iodine L 2 and L 3 absorption edges. We show that dispersive RIXS spectral features that were recognized as a fingerprint of dissociative molecular states can be interpreted in terms of ultrashort natural lifetime of ∼200 attoseconds in the case of the iodine L-shell core-hole. Our results demonstrate the capacity of the RIXS technique to reveal subtle dynamical effects in molecules with sensitivity to nuclear rearrangement on a subfemtosecond time scale.

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“…For a two-photon process such as XRRS, the dipole selection rule requires that the final-state parity be the same as the initialstate parity. This parity selection rule has been confirmed 67,95,96 in the cases of XRRS spectra of N 2 and O 2 , for which the x-ray wavelengths are ª30 Å and ª23 Å, respectively, i.e., large compared with internuclear distances. Skytt et al 67,97 and Glans et al 96 discuss the case of C O 2 , which also has inversion symmetry.…”

Section: Nondipole X-ray Resonant Raman Scattering From Moleculesmentioning

confidence: 63%