{"process": "Sputtering", "process_types": [{"abbreviation": "MPS", "description": "Physical Sputtering"}, {"abbreviation": "MSP", "description": "Sputtering"}], "surface": "Hg", "surface_phase": "pc", "species": {"text": "Kr+", "charge": 1}, "temperature": 300, "comment": "Eckstein equation (2) is incorrect; use formula given on p.18 of APID-7B", "refs": [{"id": 144, "authors": "W. Eckstein", "title": "Sputtering Yields. In: Sputtering by Particle Bombardment", "journal": "Topics in Applied Physics", "volume": "110", "page_start": "", "page_end": "", "article_number": "", "year": 2007, "note": "Springer, Berlin, Heidelberg", "doi": "https://doi.org/10.1007/978-3-540-44502-9_3", "bibcode": "", "url": ""}]}
------------------------------------------------------------------------
Sputtering of Kr+ on Hg(pc) at 300 K
{"fit_function": "SPTEEX", "coeffs": {"lambda": 0.0964, "q": 14.16, "mu": 2.15, "epsilonL": 1.468e-06, "Eth": 24.75}, "E_min": 24.75, "E_max": 100000}
angle = 0.0 deg
E /eV	P	
24.75	7.383e-37	
29.32	0.0001028	
34.73	0.0006509	
41.14	0.002219	
48.74	0.005848	
57.74	0.01327	
68.41	0.02706	
81.04	0.0504	
96.01	0.08618	
113.7	0.1355	
134.7	0.1966	
159.6	0.2656	
189.1	0.3383	
224.0	0.4118	
265.4	0.4853	
314.4	0.559	
372.5	0.6339	
441.3	0.7112	
522.8	0.7919	
619.3	0.8769	
733.7	0.9671	
869.2	1.063	
1030.0	1.165	
1220.0	1.274	
1445.0	1.389	
1712.0	1.512	
2028.0	1.642	
2403.0	1.778	
2847.0	1.922	
3373.0	2.073	
3995.0	2.23	
4733.0	2.394	
5607.0	2.563	
6643.0	2.738	
7870.0	2.917	
9323.0	3.099	
11050.0	3.284	
13090.0	3.472	
15500.0	3.659	
18360.0	3.847	
21760.0	4.032	
25770.0	4.214	
30530.0	4.392	
36170.0	4.563	
42850.0	4.727	
50770.0	4.88	
60140.0	5.022	
71250.0	5.151	
84410.0	5.265	
-----