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Prog. Theor. Phys. Supplement Extra Number (1967) pp. 374-422

Phenomenological Analyses of High Energy Scattering

Masako Bando,¹ Katsusada Morita,¹ Toshihiro Yoshida,¹ Yoshio Sumi,² Hiroyuki Kanada,³ Takeo Matsuoka,³ Tsuneo Suzuki,³ Haruo Suzuki,⁴ Kimio Fujimura,⁵ Tetsuro Kobayashi⁶ and Ichiro Ohba⁵

¹ Department of Physics, Kyoto University, Kyoto
² Department of Applied Mathematics,
Faculty of Engineering Science, Osaka University, Toyonaka
³ Department of Physics, Nagoya University, Nagoya
⁴ Department of Physics, Rikkyo University, Tokyo
⁵ Department of Physics, Waseda University
⁶ Science and Engineering Research Laboratory, Waseda University, Tokyo

Abstract:

Experimental data in the high energy region have been accumulated on a wide variety of processes as seen from the previous part. So far many phenomenological models have been proposed to interpret the characteristic features of the experimental data. On the basis of these models a lot of analyses has been carried out, and succeeded to some extent in describing the main features of inelastic as well as elastic processes at high energies.
It seems to be appropriate to summarize briefly the basic ideas underlying in these models and their main results. Here we shall pay attention to the following two points.
i) In what manner do these models attempt to elucidate the experimental data?
ii) To what extent can these models reproduce the experimental data?
A word should be added to our way of the summary of the models. We did not aim at exhausting all phenomenological models proposed so far, but compiled relatively familiar ones at our disposal. We do not care for reviewing them in the light of any systematic consideration.
The contents of this part are as follows:
§2. Optical model in high energy scattering
§3. One-particle-exchange model and its variations
§4. Regge pole model
§5. Symmetry approach to high energy scattering
§6. Various versions of the statistical theory
§7. Uncorrelated jet model
§8. Miscellaneous

URL : http://ptp.ipap.jp/link?PTPS/E67/374/
DOI : 10.1143/PTPS.E67.374

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