Research Article
Method of Measuring the Efficiency of the Conversion of Nuclear Energy into Optical Energy
Table 1
Rate constants of processes in an Ar-N2 mixture.
| Number | Process | Constant of process | References |
| 1 | Ar + α → Ar + α | eV | [3] | 2 | Ar + α → Ar+ + α + e | eV | [3] | 3 | Ar+ + 2Ar → + Ar | cm6s−1 | [8] | 4 | Ar+ + N2 → + Ar | cm3s−1 | [12] | 5 | + e → Ar + Ar | cm3s−1 | [13] | 6 | Ar + 2Ar → + Ar | cm6s−1 | [14] | 7 | → + 2Ar | s−1 | [8] | 8 | Ar + N2 → N2(B) + Ar | cm3s−1 | [15] | 9 | Ar + N2 → N2(C) + Ar | cm3s−1 | [15] | 10 | Ar + N2 → N2(E) + Ar | cm3s−1 | [8] | 11 | + N2 → N2(B) + 2Ar | cm3s−1 | [8] | 12 | N2(E) + Ar → N2(C) + Ar | cm3s−1 | [8] | 13 | N2(C) → + N2(B) | s−1 | [15] | 14 | N2(C) + N2 → N2(B) + N2 | cm3s−1 | [15] | 15 | N2(C) + Ar → N2(B) + Ar | cm3s−1 | [16] | 16 | N2(B) → + N2(A) | s−1 | [15] | 17 | N2(B) + N2 → N2(A) + N2 | cm3s−1 | [8] | 18 | N2(B) + Ar → N2(A) + Ar | cm3s−1 | [8] | 19 | N2(A) + N2(A) → N2(E) + N2 | cm3s−1 | [8] | 20 | N2(A) + N2(A) → N2(C) + N2 | cm3s−1 | [8] | 21 | N2(A) + N(A) → N2(B) + N2 | cm3s−1 | [8] | 22 | N2(A) + N2 → N2 + N2, | cm3s−1 | [17] | 23 | N2(A) + Ar → N2 + Ar | cm3s−1 | [17] |
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