Abstract
It is noted that the pion and vector meson fields of the relativistic nucleon behave in different ways. The contribution of the vector meson field increases with increasing energy and becomes dominating at {gamma}>or approx. 10{sup 2}({gamma} is the Lorentz factor). This leads to the growth of the transverse size for the nucleon. As a result, the character of peripheral and central collision changes (the former is determined by vector exchange). The cross section of {rho} and {omega} production increases. A significant contribution to the spin effect is expected. The opinion is expressed that the indicated growth of the transverse size of the nucleon leads to increasing the total cross section of nucleon interaction at high energy. 9 refs.; 3 figs.; 1 tab.
Citation Formats
Belyakov, V A, and Strel`tsov, V N.
Relativistic nucleon.
USSR: N. p.,
1990.
Web.
Belyakov, V A, & Strel`tsov, V N.
Relativistic nucleon.
USSR.
Belyakov, V A, and Strel`tsov, V N.
1990.
"Relativistic nucleon."
USSR.
@misc{etde_10106238,
title = {Relativistic nucleon}
author = {Belyakov, V A, and Strel`tsov, V N}
abstractNote = {It is noted that the pion and vector meson fields of the relativistic nucleon behave in different ways. The contribution of the vector meson field increases with increasing energy and becomes dominating at {gamma}>or approx. 10{sup 2}({gamma} is the Lorentz factor). This leads to the growth of the transverse size for the nucleon. As a result, the character of peripheral and central collision changes (the former is determined by vector exchange). The cross section of {rho} and {omega} production increases. A significant contribution to the spin effect is expected. The opinion is expressed that the indicated growth of the transverse size of the nucleon leads to increasing the total cross section of nucleon interaction at high energy. 9 refs.; 3 figs.; 1 tab.}
place = {USSR}
year = {1990}
month = {Dec}
}
title = {Relativistic nucleon}
author = {Belyakov, V A, and Strel`tsov, V N}
abstractNote = {It is noted that the pion and vector meson fields of the relativistic nucleon behave in different ways. The contribution of the vector meson field increases with increasing energy and becomes dominating at {gamma}>or approx. 10{sup 2}({gamma} is the Lorentz factor). This leads to the growth of the transverse size for the nucleon. As a result, the character of peripheral and central collision changes (the former is determined by vector exchange). The cross section of {rho} and {omega} production increases. A significant contribution to the spin effect is expected. The opinion is expressed that the indicated growth of the transverse size of the nucleon leads to increasing the total cross section of nucleon interaction at high energy. 9 refs.; 3 figs.; 1 tab.}
place = {USSR}
year = {1990}
month = {Dec}
}