Laser Optogalvanic Detection of Molecular Ions

6 June 1983

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 50 (23), 1846-1849
https://doi.org/10.1103/physrevlett.50.1846

Abstract

This Letter reports the first optogalvanic detection of molecular ions (

N_{2}^{+}

, C

O^{+}

). The present results indicate a new optogalvanic mechanism involving direct alteration of ion mobility by laser excitation, due to a difference in charge-exchange collision rates for excited- vs ground-state ions. The technique provides a sensitive probe of ions in the cathode dark space. Ion kinetic energies are obtained from Doppler shifts and internal energy distributions from rotational line intensities.

Keywords

This publication has 9 references indexed in Scilit:

Doppler-free optogalvanic spectroscopy of 88,86Sr I and II
Optics Communications, 1982
Symmetric charge-exchange reactions of N 2 + -ions investigated by laser-induced fluorescence
The European Physical Journal A, 1982
Spectroscopy of Molecular Ions
Applied Spectroscopy Reviews, 1982
Optogalvanic spectroscopy
Contemporary Physics, 1981
Galvanic detection of optical absorptions in a gas discharge
Applied Physics Letters, 1976
Low Energy Ion-Neutral Reactions. VI. Ar⁺+Ar, N₂⁺+N₂, O₂⁺+O₂ and CO⁺+CO.
Journal of the Physics Society Japan, 1975
Molecular charge transfer: Experimental and theoretical investigation of the role of incident-ion vibrational states in N2+–N2 and CO+–CO collisions
The Journal of Chemical Physics, 1973
Field Measurements in Glow Discharges with a Refined Electron Beam Probe and Automatic Recording
Physical Review B, 1955
Drift Velocity of Ions in Oxygen, Nitrogen, and Carbon Monoxide
Physical Review B, 1953

Cited by 44 articles