Raphaël Marion
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View article: A Third Luminous Shark Family: Confirmation of Luminescence Ability for <i>Zameus squamulosus</i> (Squaliformes; Somniosidae)
A Third Luminous Shark Family: Confirmation of Luminescence Ability for <i>Zameus squamulosus</i> (Squaliformes; Somniosidae) Open
Since recently, shark’s bioluminescence has been recorded from two Squaliformes families, the Etmopteridae and Dalatiidae. Pictures of luminescence, light organ morphologies and physiology of the luminous control have been described for sp…
View article: Photodetachment of C<sup>−</sup> in the ground state
Photodetachment of C<sup>−</sup> in the ground state Open
Synopsis Absolute total cross sections and asymmetry parameters for photodetachment of C − ( 4 S o ) have been measured using animated-crossed-beam and velocity map imaging techniques, for photon energies from threshold up to 6eV. The cros…
View article: Non-adiabatic transitions in the near-UV photodissociation of H3+
Non-adiabatic transitions in the near-UV photodissociation of H3+ Open
Synopsis The near-UV photodissociation of has been studied in a fast beam experiment. The kinetic energy release and branching ratio among the fragmentation channels were obtained by three-dimensional imaging of the dissociation pro…
View article: Autodetachment spectroscopy of the metastable HD<sup>−</sup> and D2− anions
Autodetachment spectroscopy of the metastable HD<sup>−</sup> and D2− anions Open
Synopsis The autodetachment spectrum of decaying HD − and has been recorded with a velocity-map imaging spectrometer. Coincident detection of the neutral molecule permits the selection of events occuring in the center of the spectro…
View article: Non adiabatic coupling matrix element from Photodissociation as a probe of the H<sup>+</sup><sub>3</sub> avoided crossing seam
Non adiabatic coupling matrix element from Photodissociation as a probe of the H<sup>+</sup><sub>3</sub> avoided crossing seam Open
This table gives the non-adiabatic coupling matrix element between the ground and first excited state of H3+, as shown in figure 1
View article: Adiabatic potential energy surfaces from Photodissociation as a probe of the H<sup>+</sup><sub>3</sub> avoided crossing seam
Adiabatic potential energy surfaces from Photodissociation as a probe of the H<sup>+</sup><sub>3</sub> avoided crossing seam Open
This table gives the adiabatic potential energy surfaces for the ground and first excited states of H3+, as shown in figure 1
View article: ReadMe from Photodissociation as a probe of the H<sup>+</sup><sub>3</sub> avoided crossing seam
ReadMe from Photodissociation as a probe of the H<sup>+</sup><sub>3</sub> avoided crossing seam Open
This file contains the description of the supplementary material
View article: Kinetic energy release spectra from Photodissociation as a probe of the H<sup>+</sup><sub>3</sub> avoided crossing seam
Kinetic energy release spectra from Photodissociation as a probe of the H<sup>+</sup><sub>3</sub> avoided crossing seam Open
This table gives the kinetic energy release spectra for the H2+ + H and H2 + H+ channels, as shown in figure 4