EarthRef.org Reference Database (ERR)
Development and Maintenance by the EarthRef.org Database Team

Detailed Reference Information
Makarov et al. 2004
Makarov, O.P., Ajello, J.M., Vattipalle, P., Kanik, I., Festou, M.C. and Bhardwaj, A. (2004). Kinetic energy distributions and line profile measurements of dissociation products of water upon electron impact. Journal of Geophysical Research 109: doi: 10.1029/2002JA009353. issn: 0148-0227.

The Doppler line profiles of H Ly-α (1216 ¿) and O I (1302 ¿ and 1152 ¿) resulting from electron impact dissociative excitation of H2O have been measured with a high-resolution (λ/Δλ = 50,000) ultraviolet spectrometer. The line profiles are used to calculate the kinetic energy distribution of the hydrogen atoms produced in dissociative excitation and ionization of H2O at electron impact energies 25, 35, and 100 eV. Three distinct populations of H(2p) atoms were found. The kinetic energy of hydrogen atoms is found to have contributions from a low-energy component, with a mean energy of ~0.2 eV at all the three electron impact energies. In addition, a medium-energy component appears with a mean energy of ~2.0 eV for 35 eV electrons, and a high-energy component, ~7 eV, for 100 eV electrons. The measurement of O I (1302 ¿) and O I (1152 ¿) line profiles indicate that the kinetic energy of excited O I atoms is very small (~1 eV or less) at all electron impact energies. Most of the energy released in dissociation is found in the translational energy of the hydrogen atoms. The excitation functions of H Ly-α, O I (1302 ¿) feature of oxygen, and A(0) - X(0) molecular band of hydroxyl near 3050 ¿ from threshold to 600 V were also measured. The spectrum (1.0 ¿ FWHM) of the rotational structure of OH (A - X) from electron impact dissociation indicates a high degree of rotational excitation, which is almost identical to the rotational structure from dissociative recombination of H2O+. The results presented in this paper have important applications to planetary bodies, like comets, icy satellites of outer planets, Saturn's magnetosphere, and rings, all of which have H2O and its daughter products in large amount.

BACKGROUND DATA FILES

Abstract

Keywords
Planetology, Comets and Small Bodies, Atmospheres—composition and chemistry, Planetology, Comets and Small Bodies, Ice, Planetology, Solar System Objects, Comets, Planetology, Solar System Objects, Jovian satellites, Planetology, Solar System Objects, Saturnian satellites, comets, ultraviolet spectroscopy, electron collisions, cross sections, water
Journal
Journal of Geophysical Research
http://www.agu.org/journals/jb/
Publisher
American Geophysical Union
2000 Florida Avenue N.W.
Washington, D.C. 20009-1277
USA
1-202-462-6900
1-202-328-0566
service@agu.org
Click to clear formClick to return to previous pageClick to submit