Add to ORKGAll previous experimental and theoretical studies of molecular interactions at metal surfaces show that electronically nonadiabatic influences increase with molecular velocity. We report the observation of a nonadiabatic electronic effect that follows the opposite trend: The probability of electron emission from a low–work function surface—Au(111) capped by half a monolayer of Cs—increases as the velocity of the incident NO molecule decreases during collisions with highly vibrationally excited NO(X2π½, V = 18; V is the vibrational quantum number of NO), reaching 0.1 at the lowest velocity studied. We show that these results are consistent with a vibrational autodetachment mechanism, whereby electron emission is possible only beyond a certai...
Molecules typically must point in specific relative directions to participate efficiently in energy ...
Translational motion is believed to be a spectator degree of freedom in electronically nonadiabatic ...
Electronically nonadiabatic interactions between molecules and metal surfaces are now well known. Ev...
All previous experimental and theoretical studies of molecular interactions at metal surfaces show t...
Here we review experimental and theoretical work on vibrational energy transfer in collisions of mol...
We report the first direct measurement of the kinetic energy of exoelectrons produced by collisions ...
During a collision of highly vibrationally excited NO with a Au(111) surface, the molecule can lose ...
Nonadiabatic effects that arise from the concerted motion of electrons and atoms at comparable energ...
Molecular beam surface scattering is used to compare vibrational excitation of N<sub>2</sub> molecul...
Nonadiabatic effects that arise from the concerted motion of electrons and atoms at comparable energ...
We present a combined experimental and theoretical study of NO(v = 3 -> 3, 2, 1) scattering from a A...
We measured absolute probabilities for vibrational excitation of NO(v = 0) molecules in collisions w...
Molecular beam surface scattering is used to compare vibrational excitation of N-2 molecules in coll...
We observe a strong influence of molecular vibration and surface temperature on electron emission pr...
ing fl ow of charge back and forth between the NO molecule and the valence electrons in the metal. T...
Molecules typically must point in specific relative directions to participate efficiently in energy ...
Translational motion is believed to be a spectator degree of freedom in electronically nonadiabatic ...
Electronically nonadiabatic interactions between molecules and metal surfaces are now well known. Ev...
All previous experimental and theoretical studies of molecular interactions at metal surfaces show t...
Here we review experimental and theoretical work on vibrational energy transfer in collisions of mol...
We report the first direct measurement of the kinetic energy of exoelectrons produced by collisions ...
During a collision of highly vibrationally excited NO with a Au(111) surface, the molecule can lose ...
Nonadiabatic effects that arise from the concerted motion of electrons and atoms at comparable energ...
Molecular beam surface scattering is used to compare vibrational excitation of N<sub>2</sub> molecul...
Nonadiabatic effects that arise from the concerted motion of electrons and atoms at comparable energ...
We present a combined experimental and theoretical study of NO(v = 3 -> 3, 2, 1) scattering from a A...
We measured absolute probabilities for vibrational excitation of NO(v = 0) molecules in collisions w...
Molecular beam surface scattering is used to compare vibrational excitation of N-2 molecules in coll...
We observe a strong influence of molecular vibration and surface temperature on electron emission pr...
ing fl ow of charge back and forth between the NO molecule and the valence electrons in the metal. T...
Molecules typically must point in specific relative directions to participate efficiently in energy ...
Translational motion is believed to be a spectator degree of freedom in electronically nonadiabatic ...
Electronically nonadiabatic interactions between molecules and metal surfaces are now well known. Ev...