Table B.2
Compilation of photoelectron impact processes*
No. | Parent | Products | Threshold eV | Reference |
---|---|---|---|---|
1 | H | elastic | 0 | Bray & Stelbovics (1995) |
2 → 11 | H | electronic excitation (10 states) | 10.20 → 13.06 | Bray & Stelbovics (1995) |
12 | H | H+ + e | 13.6 | Tawara & Kato (1987) |
13 | He | elastic | 0 | Register et al. (1980) |
14 → 62 | He | electronic excitation (49 states) | 19.82 → 24.51 | Ralchenko et al. (2008) |
63 | He | He+ + e | 24.59 | Tawara & Kato (1987) |
64 | C | elastic | 0 | Wang et al. (2013) |
65 | C | C(1D) | 1.31 | Wang et al. (2013) |
66 | C | C(1S) | 2.63 | Wang et al. (2013) |
67 → 103 | C | electronic excitation (37 states) | 3.99 → 9.85 | Wang et al. (2013) |
104 | C | C++ e | 11.26 | Tawara & Kato (1987) |
105 | N | elastic | 0 | Wang et al. (2014) |
106 | N | N(2D) | 2.39 | Wang et al. (2014) |
107 | N | N(2P) | 3.57 | Wang et al. (2014) |
108 → 131 | N | electronic excitation (24 states) | 10.42 → 13.35 | Wang et al. (2014) |
132 | N | N+ + e | 14.53 | Tawara & Kato (1987) |
133 | O | elastic | 0 | Blaha & Davis (1975);Williams & Allen (1989) |
134 | O | O(1D) | 1.96 | Laher & Gilmore (1990) |
135 | O | O(1S) | 4.18 | Laher & Gilmore (1990) |
136 → 199 | O | electronic excitation (64 states) | 15.65 → 18.35 | Laher & Gilmore (1990) |
200 | O | O+(4S) + e | 13.61 | Laher & Gilmore (1990) |
201 | O | O+(2D)+e | 16.93 | Laher & Gilmore (1990) |
202 | O | O+(2P) + e | 18.63 | Laher & Gilmore (1990) |
203 | Ar | elastic | 0 | Zatsarinny et al. (2014) |
204 → 247 | Ar | electronic excitation (44 states) | 11.55 → 15.66 | Zatsarinny et al. (2014) |
248 | Ar | Ar+ + e | 15.76 | Straub et al. (1995) |
249 | CO2 | elastic | 0 | Gibson et al. (1999); Itikawa (2002) |
250 → 263 | CO2 | vibrational excitation (14 states) | 0.08275 → 2.5 | Pancheshnyi et al. (2012) |
264 → 328 | CO2 | electronic excitation (65 states) | 6.5 → 25 | Pancheshnyi et al. (2012) |
329 | CO2 | ![]() |
13.78 | Itikawa (2002) |
330 | CO2 | O+(4S) + CO + e | 19.07 | Itikawa (2002) |
331 | CO2 | CO+ + O + e | 19.47 | Itikawa (2002) |
332 | CO2 | C+ + O2 + e | 27.82 | Itikawa (2002) |
333 | CO2 | O+(4S) + CO+ + 2e | 33.08 | Itikawa (2002) |
334 | CO2 | O+(4S) + O+(4S) + C + 2e | 43.78 | Itikawa (2002) |
335 | CO2 | C+ + O+(4S) + O + 2e | 41.43 | Itikawa (2002) |
336 | CO | elastic | 0 | Itikawa (2015) |
337 → 346 | CO | vibrational excitation (10 states) | 0.266 → 2.58 | Laporta et al. (2012) |
347 → 365 | CO | electronic excitation (19 states) | 8.51 → 13.5 | Sawada et al. (1972);Jackman et al. (1977) |
366 | CO | CO+ + e | 14.01 | Sawada et al. (1972) |
367 | CO | C+ + O + e | 22.37 | Tian & Vidal (1999) |
368 | CO | O+(4S) + C + e | 24.65 | Tian & Vidal (1999) |
369 | CO | C+ + O+(4S) + 2e | 35.98 | Tian & Vidal (1999) |
370 | O2 | elastic | 0 | Itikawa (2009) |
371 → 374 | O2 | vibrational excitation (4 states) | 0.19 → 0.8 | Itikawa (2009) |
375 → 380 | O2 | electronic excitation (6 states) | 0.98 → 10.29 | Itikawa (2009) |
381 | O2 | ![]() |
12.05 | Itikawa (2009) |
382 | O2 | O+(4S) + O + e | 23.13 | Itikawa (2009) |
383 | O2 | O+(4S) + O+(4S) + 2e | 42.3 | Itikawa (2009) |
384 | N2 | elastic | 0.0 | Itikawa (2006) |
385 → 394 | N2 | vibrational excitation (10 states) | 0.29 → 2.7 | Campbell et al. (2004); Itikawa (2006) |
395 → 408 | N2 | electronic excitation (14 states) | 6.17 → 12.1 | Tabata et al. (2006); Itikawa (2006) |
409 | N2 | ![]() |
15.58 | Itikawa (2006) |
410 | N2 | N+ + N + e | 24.34 | Tabata et al. (2006) |
411 | N2 | N+ + N+ + 2e | 31.2 | Tabata et al. (2006) |
412 | H2 | elastic | 0 | Yoon et al. (2008) |
413 → 415 | H2 | vibrational excitation (3 states) | 0.516 → 1.5 | Tawara et al. (1990) |
416 → 432 | H2 | electronic excitation (17 states) | 10.31 → 15.15 | Zammit et al. (2017) |
433 | H2 | ![]() |
15.43 | Yoon et al. (2008) |
434 | H2 | H+ + H + e | 18.13 | Yoon et al. (2008) |
435 | NO | elastic | 0.0 | Song et al. (2019) |
436 → 438 | NO | vibrational excitation (3 states) | 0.2326 → 0.677 | Song et al. (2019) |
439 → 460 | NO | electronic excitation (22 states) | 4.747 → 8.9 | Song et al. (2019) |
461 | NO | NO+ + e | 9.26 | Song et al. (2019) |
462 | NO | N+ + O + e | 21.26 | Song et al. (2019) |
463 | NO | O+(4S) + N + e | 20.19 | Song et al. (2019) |
* Photoelectron impact processes included in our model, along with the respective threshold energies and source references for cross-section. Vibrational or electronic excitation via photoelectron impact typically involves many different states and only the ranges of threshold energy are provided for simplicity.
Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.
Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.
Initial download of the metrics may take a while.