ROTATIONAL EXCITATION AND MOMENTUM TRANSFER CROSS SECTIONS FOR ELECTRONS IN H$sub 2$ AND N$sub 2$ FROM TRANSPORT COEFFICIENTS. Technical Report 9. Scientific Paper 62-908-113-P1
Rotational excitation and momentum transfer cross sections for low- energy electrons in hydrogen and nitrogen are obtained from a comparison of theoretical and experimental values for the mobility and diffusion coefficients. The theoretical values of the transport coefflcients were obtained by calculating accurate electron energy distribution functions using an assumed set of elastic and inelastic cross sections. The discrete nature of the energy loss occurring in a rotational or vibrational excitation collision was included in the theory, as were collisions of the second kind with thermally excited molecules. The resulting values of drift velocity and characteristic energy, D/ mu , were compared with experimental data and adjustments made in the assumed cross sections until good agreement was obtained. The momentum transfer cross sections found in this manner agree well with several recent analyses valid in restricted energy ranges. The final values of the rotational excitation cross sections are 2.5 times the values computed using the theory of Gerjuoy and Stein and the latest available values for the molecular electric quadrupole moments. In hydrogen, the analysis was extended to energies for which vibrational excitation is important. A vibrational cross section with a maximum of roughly 5 x 10/sup - 7/ cm/sup 2/ at 3 ev is consistent with the measurements. (auth)
- Research Organization:
- Westinghouse Electric Corp. Research Labs., Pittsburgh
- NSA Number:
- NSA-16-015630
- OSTI ID:
- 4793097
- Report Number(s):
- NP-11479
- Country of Publication:
- United States
- Language:
- English
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