Research Article
Global Modeling of N2O Discharges: Rate Coefficients and Comparison with ICP and Glow Discharges Results
Table 9
Additional processes involving the N
2 species (only for
calculation).
| No. | Process | Description |
| 1 | N2 + e−N2 + e− | N2 elastic collisions | 2 | N2 (X, ) + e−N2 (X, ) + e− | N2 vibrational excitation 6 | 3 | N2 (X, ) + e−N2 (X, ) + e− | N2 vibrational excitation 7 | 4 | N2 (X, ) + e−N2 (X, ) + e− | N2 vibrational excitation 8 | 5 | N2 (X) + e−N2 (A) + e− | N2 A excitation, in three parts | 6 | N2 (X) + e−N2 (B) + e− | N2 B excitation | 7 | N2 (X) + e−N2 (W) + e− | N2 W excitation | 8 | N2 (X) + e−N2 (B′) + e− | N2 B′ excitation | 9 | N2 (X) + e−N2 (a′) + e− | N2 a′ excitation | 10 | N2 (X) + e−N2 (a) + e− | N2 a excitation | 11 | N2 (X) + e−N2 (w) + e− | N2 w excitation | 12 | N2 (X) + e−N2 (C) + e− | N2 C excitation | 13 | N2 (X) + e−N2 (E) + e− | N2 E excitation | 14 | N2 (X) + e−N2 (a′′) + e− | N2 a′′ excitation | 15 | N2 + e−N + N+ + e− | N2 dissociation with simple ionization | 16 | N2 + e−N+ + N+ + e− | N2 dissociation with double ionization |
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