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0001
0002 Angle distribution data
0003
0004 1. A.0.Hanson et al. Phys.Rev. 84, 634.(1951)
0005 15.7 MeV e-, thin Au and Be foils,
0006 angle distribution (with tails!)
0007 2. L.A.Kulchitsky, G.D.Latyshev Phys.Rev. 61, 254. (1942)
0008 2.25 MeV e-, different targets
0009 theta0 of the angle distribution, no tails
0010 3. H.Bichsel Phys.Rev. 112, 182. (1958)
0011 few MeV protons, diff. targets, theta0
0012 4. B.Gottschalk et al. NIM B74, 467 (1993)
0013 158.6 MeV protons, diff. targets and thicknesses
0014 theta0 of the angle distribution
0015 5. E.V.Hungerford et al. Nucl. Phys. A197, 515 (1972)
0016 600 MeV protons, diff. targets, angle distributions
0017 (small angle)
0018 6. J.Vincour and P.Bem, NIM 148, 399 (1978)
0019 6-12 MeV p and d, silicon, angle distributions
0020 (small angle)
0021 7. B.W.Mayes et al. Nucl.Phys. A230, 515 (1974)
0022 200 - 300 MeV/c pi+, different targets, thicknesses
0023 theta0x,y (projected angle, small angles)
0024 8. S.A. Akimenko et al. NIM A243, 518 (1986)
0025 7.3 and 11.7 GeV/c muons, Cu target
0026 angle distr. (small angles)
0027 9. C.Michelet et al. NIM B181, 157 (2001)
0028 2.5 MeV p and alpha, lateral distr. after mylar foils
0029
0030 Transmission, backscattering, dose, energy deposit etc.
0031
0032 9. S.M. Seltzer and M.J.Berger
0033 NIM 119, 157 (1974)
0034 Monte Carlo + a lot of exp. data with references!
0035 transmission coeff, angle and energy distr. of
0036 transmitted electrons, reflection coeff,
0037 angle distr. of reflected electrons,
0038 energy deposit as a function of depth,
0039 10. D.H.Rester and J.H. Derrickson
0040 J.Appl.Phys. 12, 714 (1971)
0041 transmission of 1 MeV and 2.5 MeV e-,Al,Au
0042 energy and angle distr. ot transmitted particles
0043 11. D.H.Rester and J.H. Derrickson
0044 NIM 86, 261 (1970)
0045 1 MeV e- , backscattering, diff. targets
0046 energy and angular distr. of backscattered particles
0047 12. J.Jakschik and K.P. Jungst
0048 NIM 79 , 240 (1970)
0049 backscattering of 250/500 keV e- from THIN targets(Al)
0050 backsc.coeff.,energy spectra of backscattered particles,
0051 angle distr. of backscattered particles
0052 13. H.H.Seliger Phys.Rev. 100, 1029 (1955)
0053 transmission of e-/e+ 159-960 keV, diff. materials/thicknesses
0054 transm. coeff.
0055 14. H.J.Hunger and L.Kuchler Phys.Stat.Sol.(a) 56, K45 (1979)
0056 e- backscatt. coeffs , 4-40 keV, Z=5-92 (numbers!)
0057 15. T.Tabata et al. NIM 94, 509 (1971)
0058 empirical formula for e- backscattering,
0059 comparison with data+references
0060 16. V.A.Kuzminikh et al. NIM 118, 269 (1974)
0061 empirical formula for e+ backscattering , comparison with data
0062 0.1-20 MeV, arbitrary Z
0063 it claims : tis formula is better than Tabata's
0064 17. E.H.Darlington J.Phys.D:Appl.Phys. 8, 85 (1975)
0065 backscattering of 10-100keV e- from diff.targets,
0066 backsc.coeff.+energy spectrum
0067 18. G.Neubert,S.Rogaschewsky Phys.Stat.Sol(a) 59, 35 (1980)
0068 15-60 keV e- backscattering,diff. angles of incidence
0069 and diff. targets
0070 19. P.G.Coleman et al. J.Phys: Condens.Matter 4, 10311(1992)
0071 1 - 50 keV e+ backscattering, diff. angles of incidence,
0072 diff. targets , bs coeffs(numbers!).
0073 20. G.R.Massoumi et al. Phys.Rev. B 47, 11007(1993)
0074 e-/e+ bs, T < 100 keV,very detailed MC calculation + data
0075 21. H.Bichsel
0076 Rev.Mod.Phys. 60, 663 (1988)
0077 Energy deposit in Si detectors (e+-,p,pi, diff.energies/
0078 detector thicknesses)
0079 22. M.J.Berger et al. NIM 69, 181(1969).
0080 Energy deposit of 250 keV - 1 MeV e- in Si counters,
0081 energy deposit distributions
0082 (sigma noise + en.cut in detectors included!)
0083 23. S.Kuhn et al. NIM B4 332 (1984)
0084 Multiple scattering of protons in thick gas targets
0085 ( lateral distribution of few MeV protons after 1.5 m gas)
0086 24. S.M.Seltzer and M.J.Berger
0087 Energy deposition by electron,Bremsstrahlung and 60Co gamma-ray
0088 beams in multi-layer media
0089 Appl.Radiat.Isot. Vol.38 (1987) 349.
0090 25. R.Shimizu et al. J.Phys.D: Appl.Phys. 9.(1976) 101.
0091 Transmission of 20 keV e- through very thin Al layers
0092 (d = 320 and 1040 nanometer!)
