Modeling the structure of the dayside Venusian ionosphere: Impacts of protonation and Coulomb interaction

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Volume 685 (May 2024)

A&A, 685 (2024) A160

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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	${CO}_{2}^{+} + e$ ${\rm{CO}}_2^ + + {\rm{e}}$	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	$O_{2}^{+} + e$ ${\rm{O}}_2^ + + {\rm{e}}$	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	$N_{2}^{+} + e$ ${\rm{N}}_2^ + + {\rm{e}}$	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	$H_{2}^{+} + e$ ${\rm{H}}_2^ + + {\rm{e}}a$	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.

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