Angularly resolved rotational energy transfer in highly vibrationally excited states: Na2(v=31)–Ne
- 15 March 1991
- journal article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 94 (6) , 4252-4259
- https://doi.org/10.1063/1.460611
Abstract
The scattering of high vibrationally excited sodium molecules Na2(v=31) with Ne atoms at 180 meV collision energy is investigated in a crossed molecular beam arrangement using laser optical methods. Angularly resolved rotationally inelastic and vibrationally elastic cross sections ji→jf are measured for ji =5, 7, and 9≤jf ≤25. Pronounced rotational rainbow maxima are observed, the angular position of which indicates a significantly larger anisotropy of the interaction potential compared to that of Na2(v=0)–Ne. Except for the increase of the anisotropy the vibrational excitation has little effect on the dynamics of rotational energy transfer. Good agreement with a new semiempirical Na2–Ne potential surface V(r,R,γ) is found.Keywords
This publication has 23 references indexed in Scilit:
- The Effect of Laser-Induced Vibrational Bond Stretching in Atom-Molecule CollisionsAnnual Review of Physical Chemistry, 1990
- Quasiclassical trajectory calculations of integral cross sections for highly vibrationally excited Li2He, Kr systemsChemical Physics Letters, 1990
- Models for bond distance dependent alkali dimer–rare gas potentialsThe Journal of Chemical Physics, 1990
- Vibrational level dependence of Na2–Ne scattering cross sections at very low collision energyThe Journal of Chemical Physics, 1988
- A molecular beam study of the potential anisotropy of laser vibrationally excited Li2(v=0,20) scattered from KrThe Journal of Chemical Physics, 1988
- The effect of vibrational bond stretching on rotational inelastic electron-molecule scatteringThe European Physical Journal D, 1988
- Scattering of highly vibrationally excited Li2 from He and KrThe Journal of Chemical Physics, 1986
- State-to-state differential cross sections for rotationally inelastic scattering of Na2 by HeThe Journal of Chemical Physics, 1980
- Molecular beam diagnostics with internal state selection: Velocity distribution and dimer formation in a supersonic Na/Na2 beamChemical Physics, 1978
- Laser diagnostic in molecular beamsApplied Physics B Laser and Optics, 1975