A hadron model with breaking of spatial homogeneity of vacuum
E.N. Myasnikov, E.V. Mastropas
TL;DR
This paper explores how interactions between quarks and Bose-fields could break the spatial homogeneity of vacuum, leading to localized quark states and potentially explaining deep inelastic processes and quark confinement.
Contribution
It introduces a model where vacuum homogeneity breaking results in localized quark states, offering insights into confinement and deep inelastic scattering.
Findings
Vacuum homogeneity can be spontaneously broken by quark-Bose-field interactions.
Localized quark states can form under certain energetic conditions.
The model suggests a link between symmetry breaking and confinement phenomena.
Abstract
A possible breaking of spatial homogeneity of vacuum due to the interaction between quark and Bose-field is analyzed. It is shown that in this case quark can be in a localized state (like wave packet). Energetic conditions for such a spontaneous symmetry breaking are found in suggested model. Possible consequences of such symmetry breaking, in particular, the origin of deep inelastic processes and quark confinement phenomenon are discussed.
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