| Geant4 Cross Reference |
1
2 Angle distribution data
3
4 1. A.0.Hanson et al. Phys.Rev. 84, 634.(1951)
5 15.7 MeV e-, thin Au and Be foils,
6 angle distribution (with tails!)
7 2. L.A.Kulchitsky, G.D.Latyshev Phys.Rev. 61,
8 2.25 MeV e-, different targets
9 theta0 of the angle distribution, no tails
10 3. H.Bichsel Phys.Rev. 112, 182. (1958)
11 few MeV protons, diff. targets, theta0
12 4. B.Gottschalk et al. NIM B74, 467 (1993)
13 158.6 MeV protons, diff. targets and thick
14 theta0 of the angle distribution
15 5. E.V.Hungerford et al. Nucl. Phys. A197, 51
16 600 MeV protons, diff. targets, angle dist
17 (small angle)
18 6. J.Vincour and P.Bem, NIM 148, 399 (1978)
19 6-12 MeV p and d, silicon, angle distribut
20 (small angle)
21 7. B.W.Mayes et al. Nucl.Phys. A230, 515 (197
22 200 - 300 MeV/c pi+, different targets, th
23 theta0x,y (projected angle, small angles)
24 8. S.A. Akimenko et al. NIM A243, 518 (1986)
25 7.3 and 11.7 GeV/c muons, Cu target
26 angle distr. (small angles)
27 9. C.Michelet et al. NIM B181, 157 (2001)
28 2.5 MeV p and alpha, lateral distr. after
29
30 Transmission, backscattering, dose, energy d
31
32 9. S.M. Seltzer and M.J.Berger
33 NIM 119, 157 (1974)
34 Monte Carlo + a lot of exp. data with refe
35 transmission coeff, angle and energy distr
36 transmitted electrons, reflection coeff,
37 angle distr. of reflected electrons,
38 energy deposit as a function of depth,
39 10. D.H.Rester and J.H. Derrickson
40 J.Appl.Phys. 12, 714 (1971)
41 transmission of 1 MeV and 2.5 MeV e-,Al,A
42 energy and angle distr. ot transmitted pa
43 11. D.H.Rester and J.H. Derrickson
44 NIM 86, 261 (1970)
45 1 MeV e- , backscattering, diff. targets
46 energy and angular distr. of backscattere
47 12. J.Jakschik and K.P. Jungst
48 NIM 79 , 240 (1970)
49 backscattering of 250/500 keV e- from THI
50 backsc.coeff.,energy spectra of backscatt
51 angle distr. of backscattered particles
52 13. H.H.Seliger Phys.Rev. 100, 1029 (1955)
53 transmission of e-/e+ 159-960 keV, diff.
54 transm. coeff.
55 14. H.J.Hunger and L.Kuchler Phys.Stat.Sol.(a
56 e- backscatt. coeffs , 4-40 keV, Z=5-92 (
57 15. T.Tabata et al. NIM 94, 509 (1971)
58 empirical formula for e- backscattering,
59 comparison with data+references
60 16. V.A.Kuzminikh et al. NIM 118, 269 (1974)
61 empirical formula for e+ backscattering ,
62 0.1-20 MeV, arbitrary Z
63 it claims : tis formula is better than Ta
64 17. E.H.Darlington J.Phys.D:Appl.Phys. 8, 85
65 backscattering of 10-100keV e- from diff.
66 backsc.coeff.+energy spectrum
67 18. G.Neubert,S.Rogaschewsky Phys.Stat.Sol(a)
68 15-60 keV e- backscattering,diff. angles
69 and diff. targets
70 19. P.G.Coleman et al. J.Phys: Condens.Matter
71 1 - 50 keV e+ backscattering, diff. angle
72 diff. targets , bs coeffs(numbers!).
73 20. G.R.Massoumi et al. Phys.Rev. B 47, 11007
74 e-/e+ bs, T < 100 keV,very detailed MC ca
75 21. H.Bichsel
76 Rev.Mod.Phys. 60, 663 (1988)
77 Energy deposit in Si detectors (e+-,p,pi,
78 detector thicknesses)
79 22. M.J.Berger et al. NIM 69, 181(1969).
80 Energy deposit of 250 keV - 1 MeV e- in S
81 energy deposit distributions
82 (sigma noise + en.cut in detectors includ
83 23. S.Kuhn et al. NIM B4 332 (1984)
84 Multiple scattering of protons in thick g
85 ( lateral distribution of few MeV protons
86 24. S.M.Seltzer and M.J.Berger
87 Energy deposition by electron,Bremsstrahl
88 beams in multi-layer media
89 Appl.Radiat.Isot. Vol.38 (1987) 349.
90 25. R.Shimizu et al. J.Phys.D: Appl.Phys. 9.(
91 Transmission of 20 keV e- through very th
92 (d = 320 and 1040 nanometer!)