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σ 10,9 | RU79b | SH80 | PR82 | PA83 | ME85 | TO86 | SC90 | ER04b | BA06 |
Ne 10+ + H → Ne 9+
Table 1 (Theory - Distorted-wave Born approximation)
H.Ryufuku, T.Watanabe // Phys. Rev. A v.20 p.1828 (1979)
E, MeV/amu | σ 10,9 , 10 -16 cm 2 |
0.000025 | 35.3 |
0.00005 | 49.3 |
0.0001 | 54.7 |
0.00025 | 71.6 |
0.0005 | 74.5 |
0.001 | 72.1 |
0.002 | 58.6 |
0.005 | 53.9 |
0.010 | 59.6 |
0.025 | 58.0 |
0.050 | 50.0 |
0.100 | 28.5 |
0.200 | 6.41 |
0.500 | 0.26 |
1.000 | 0.0124 |
2.000 | 5.03e-4 |
Table 2 (Theory, OBK with normalization at low energy)
V.P. Shevelko // Proc. of the Lebedev Physical Institute, V.112, P.108, Moscow (1980)
E, MeV/amu | V, a.u. | σ 10,9 , 10 -16 cm 2 |
0.00272 | 0.33 | 110. |
0.00625 | 0.5 | 110. |
0.01225 | 0.7 | 100. |
0.025 | 1.0 | 79. |
0.100 | 2.0 | 26. |
0.225 | 3.0 | 7.7 |
0.625 | 5.0 | 0.42 |
1.225 | 7.0 | 0.019 |
2.500 | 10.0 | 5.3e-4 |
4.900 | 14.0 | 1.6e-5 |
Table 3 (Theory, AO-method)
L.P.Presnyakov, D.B. Uskov, R.K. Janev // Zh.Eksp.Teor.Fiz. v.83 p.933 (1982)
E, MeV/amu | σ 10,9 , 10 -16 cm 2 |
0.002 | 104. |
0.010 | 88.9 |
0.020 | 82.0 |
0.030 | 76.1 |
0.033 | 75.5 |
Table 4 (Experiment)
M.N.Panov, A.A. Basalaev, K.O. Lozhkin // Phys. Scripta, v.T3, p.124 (1983)
E, MeV/amu | V, 10 8 cm/s | σ 10,9 , 10 -16 cm 2 |
.00050 | 0.310 | 125. |
.00100 | 0.438 | 97.4 |
.00200 | 0.620 | 124. |
.00450 | 0.929 | 86.4 |
.00600 | 1.07 | 142. |
Table 5 (Experiment)
F.W. Meyer, A.M. Howald, C.C. Havener, R.A.Phaneuf // Phys. Rev. A v.32 p.3310 (1985)
E, MeV/amu | σ 10,9 , 10 -16 cm 2 |
0.000909 | 63.6 ± 11.5 |
0.001364 | 70.3 ± 12.7 |
0.002273 | 68.4 ± 10.4 |
0.002773 | 70.8 ± 10.8 |
0.003409 | 72.0 ± 11.0 |
0.004545 | 70.2 ± 10.7 |
0.006364 | 71.6 ± 10.9 |
0.008182 | 70.7 ± 10.8 |
Table 6 ( Theory - unitarized distorted-wave approximation )
N. Toshima, T. Watanabe // Phys.Rev. A v.33 p.1382 (1986)
E , MeV/amu |
σ 10,9 , 10 -16 cm 2 |
0.0002 | 38. |
0.0004 | 39. |
0.0006 | 44. |
0.001 | 44. |
0.002 | 44. |
0.003 | 46. |
0.005 | 52. |
0.008 | 54. |
0.010 | 54. |
0.015 | 53. |
0.025 | 52. |
0.035 | 48. |
0.050 | 44. |
0.070 | 36. |
0.100 | 22. |
0.150 | 10. |
0.250 | 5.5 |
0.300 | 1.7 |
0.400 | 0.62 |
0.500 | 0.28 |
0.800 | 0.038 |
Table 7 (Theory - Claccical trajectory Monte Carlo calculations )
A. Schmidt, M. Horbatsch, R.M. Dreizler // J. Phys.B v.23 p.2327S (1990)
E , MeV/amu |
σ 10,9 , 10 -16 cm 2 |
0.005 | 88. |
0.007 | 80. |
0.01 | 79. |
0.02 | 71. |
0.03 | 60. |
0.05 | 51. |
0.07 | 41. |
0.1 | 24. |
0.2 | 2.7 |
0.3 | 0.57 |
0.5 | 0.10 |
0.7 | 0.010 |
1.0 | 0.0033 |
2.0 | 2.1e-5 |
Table 8 (Theory - Molecular close-coupling method and impact-parameter classical trajectory Monte Carlo method)
L.F. Errea, C. Illescas, L. Mendez, B. Pons, A. Riera, J. Suarez // J. Phys. B v.37 p.4323 (2004)
E, MeV/amu | σ 10,9 , 10 -16 cm 2 |
0.001 | 85. |
0.002 | 86. |
0.003 | 87. |
0.005 | 86. |
0.007 | 85. |
0.010 | 81. |
0.020 | 77. |
0.030 | 72. |
0.050 | 54. |
0.070 | 34. |
0.100 | 20. |
0.200 | 3.0 |
0.300 | 0.77 |
0.500 | 0.10 |
Table 9 (Theory - Hyperspherical close-coupling method)
P. Barragan, A. Le, C.D. Lin // Phys. Rev. A v.74 p.012720 (2006)
E, MeV/amu | E, eV | σ 10,9 , a.u. | σ 10,9 , 10 -16 cm 2 |
0.05e-6 | 1.0 | 400. | 112. |
0.25e-6 | 5.0 | 280. | 78. |
0.5e-6 | 10.0 | 230. | 64. |
1.0e-6 | 20.0 | 180. | 50. |
1.5e-6 | 30.0 | 150. | 42. |
2.5e-6 | 50.0 | 130. | 36. |
5.0e-6 | 100.0 | 105. | 29. |
10.e-6 | 200.0 | 88. | 25. |
25.e-6 | 500.0 | 79. | 22. |
50.e-6 | 1000.0 | 86. | 24. |