Abstract
It is shown that in strong coupling expansions with noncompact lattice regularization as well as in the small volume expansion quarks and gluons are coupled to leading order, at variance with Wilson`s strong coupling expansion. These approaches suggest that quarks and gluons contribute in comparable amount to the structure of all hadrons (there should be no glueballs) in agreement with observation about the momentum and the spin of the proton.
Molinari, A;
[1]
Palumbo, F
[2]
- Istituto Nazionale di Fisica Nucleare, Turin (Italy)
- Istituto Nazionale di Fisica Nucleare, Frascati (Italy). Lab. Nazionale di Frascati
Citation Formats
Molinari, A, and Palumbo, F.
Quark-gluon admixture in hadrons in strong coupling and small volume expansions.
Italy: N. p.,
1991.
Web.
Molinari, A, & Palumbo, F.
Quark-gluon admixture in hadrons in strong coupling and small volume expansions.
Italy.
Molinari, A, and Palumbo, F.
1991.
"Quark-gluon admixture in hadrons in strong coupling and small volume expansions."
Italy.
@misc{etde_10102549,
title = {Quark-gluon admixture in hadrons in strong coupling and small volume expansions}
author = {Molinari, A, and Palumbo, F}
abstractNote = {It is shown that in strong coupling expansions with noncompact lattice regularization as well as in the small volume expansion quarks and gluons are coupled to leading order, at variance with Wilson`s strong coupling expansion. These approaches suggest that quarks and gluons contribute in comparable amount to the structure of all hadrons (there should be no glueballs) in agreement with observation about the momentum and the spin of the proton.}
place = {Italy}
year = {1991}
month = {Dec}
}
title = {Quark-gluon admixture in hadrons in strong coupling and small volume expansions}
author = {Molinari, A, and Palumbo, F}
abstractNote = {It is shown that in strong coupling expansions with noncompact lattice regularization as well as in the small volume expansion quarks and gluons are coupled to leading order, at variance with Wilson`s strong coupling expansion. These approaches suggest that quarks and gluons contribute in comparable amount to the structure of all hadrons (there should be no glueballs) in agreement with observation about the momentum and the spin of the proton.}
place = {Italy}
year = {1991}
month = {Dec}
}