Antiproton distribution in antiproton-nucleus interaction and leading cluster cascade model
Article
Received:
- 17 Downloads
- 2 Citations
Abstract
We investigate the leading antiproton productions in antiproton-nucleus collisions in terms of the leading cluster cascade model. It is pointed out that the energy degradation effect on\(\bar p\)A annihilation probability plays an important role to explain the\(\bar p\) spectra at small Feynman-x regions.
Keywords
Field Theory Elementary Particle Quantum Field Theory Particle Acceleration Cascade Model
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
Preview
Unable to display preview. Download preview PDF.
References
- 1.R. Bailey et al.: Z. Phys. C—Particles and Fields 29 (1985) 1Google Scholar
- 2.K. Kinoshita, A. Minaka, H. Sumiyoshi: Prog. Theor Phys. 63 (1980) 928Google Scholar
- 3.S. Daté, M. Gyulassy, H. Sumiyoshi: Phys. Rev. D32 (1985) 619Google Scholar
- 4.H. Sumiyoshi, K. Kinoshita, A. Minaka: Z. Phys. C—Particles and Fields 11 (1982) 347Google Scholar
- 5.C.Y. Wong: Phys. Rev. D30 (1984) 972Google Scholar
- 6.R.G. Glauber: In lectures in theoretical physics. W.E. Brittin, L.G. Dunham (eds) v. 1, pp. 315–414. New York: Interscience (1959) V.N. Gribov: ZhETF 56 (1969) 892Google Scholar
- 7.A.S. Carroll et al.: Phys. Lett. 80B (1979) 319Google Scholar
- 8.A.E. Brenner et al.: Phys. Rev. D26 (1982) 1497Google Scholar
- 9.S.F. Biagi et al.: Z. Phys. C—Particles and Fields 34 (1987) 187Google Scholar
- 10.M. Ježabek, J. Karczmarcruk, M. Rożańska: Z. Phys. C—Particles and Fields 29 (1985) 55Google Scholar
- 11.T. Tashiro, H. Noda, K. Kinoshita: Z. Phys. C—Particles and Fields 39 (1988) 499Google Scholar
- 12.H. Sumiyoshi, H. Kondo, M. Uehara: Z. Phys. C—Particles and Fields 19 (1983) 107Google Scholar
Copyright information
© Springer-Verlag 1989