- Autor(in)
- Referenz
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10 Goldberger, M. L., Watson, K. M., Collision Theory, John Wiley, Sons, Inc., New York 1964.
11 Knyazkov, O. M., Bulletin of the Leningrad State University 10 (1972) 15.
12 Bloch, C., Many-Body description of nuclear structure and reactions. Acad. Press., New York 1966.
13 Bernstein, A. M., Ann. Physik, Leipzig 69 (1972) 19.
14 Krutov, V. A., Savushkin, L. N., J. Phys. A (Gen. Phys.) 2 (1969) 463.
15 Bruneau, M., Vinh-Mau, N., Methods and Problems of Theor. Phys., North-Holl. Publ. Co., Amsterdam 1970, pp. 333 - 340.
16 Dover, C., Ngujen Van-Giai, Nuclear Phys. A 177 (1971) 559.
17 Kerman, A. K., Rodberg, S., Young, R., Phys. Rev. Letters 11 (1963) 422.
18 Knyazkov, O. M., Maximatchev, J. V., Ann. Physik, Leipzig 26 (1971) 97.
19 Brueckner, K. A., Eden, K. I., Francis, N. C., Phys. Rev. 100 (1955) 891.
1 Feshbach, H., Porter, C., Weisskopf, V. F., Phys. Rev. 96 (1954) 448.
20 Feshbach, H., Annu. Rev. Nucl. Sci. 8 (1958) 49.
21 Van-Giai, N., Sawicki, J., Vinh-Mau, N., Phys. Rev. 141 (1966) 913.
2 Tobocman, W., Theory of direct nuclear reactions. University Press, London 1961.
3 Lane, A., Tomas, R., Rev. Mod. Phys. 30 (1958) 257.
4 Hauser, W., Feshbach, H., Phys. Rev. 87 (1952) 366.
5 Feshbach, H., Ann. Phys., New York 5 (1958) 357.
6 Krutov, V. A., XIVth Annual Conference on Nuclear Spectroscopy (Tbilisi, 1964) Theses, p. 73.
7 Krutov, V. A., Ann. Physik, Leipzig 29 (1973) 193.
8 Krutov, V. A., Ann. Physik, Leipzig 29 (1973) 217.
9 Krutov, V. A., Sorokin, A. I., Ann. Physik, Leipzig 31 (1974) 216.
Hodgson, P. E., Reports on Progr. in Phys. 34 (1971) 765.
Hodgson, P. E., The Optical Model of Elastic Scattering, Clarendon Press, Oxford 1963.
Krutov, V. A., Ann. Physik, Leipzig 21 (1968) 263. 272, 281.
Krutov, V. A., Fomenko, V. N., Ann. Physik, Leipzig 24 (1970) 327.
Krutov, V. A., Zackrevsky, N. V., J. Phys. A. (Gen. Phys.) 2 (1969) 456.
Nemirovsky, P. E., Modern Models of the Atomic Nucleus, Atomizdat, Moscow, 1960.
- Seitenbereich
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0197 - 0215
- Zusammenfsg.
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The Semiphenomenological Model of the Nucleus (SPM) is applied to describing the mechanisms of the inelastic and elastic scattering of nucleons by nuclei. Perturbation theory for the SPM "residual" interaction (including the first and second order) is used as calculational method. Cross sections, angular distributions, widths of resonant states and the imaginary part of optical potential are considered in a unified manner (one-step and two-step transitions being taken into account). Numerical estimates are given for the target nucleus <sup>41</sup>Ca, quasiparticle states being taken as intermediate ones.
- Artikel-Typen
- Forschungsartikel