An improved M.I.T. bag model with hyper central interaction is used to calculate the charge radius for proton containing u and d quarks. We present a theoretical approach to the internal structure of three-body hyper central interacting quarks in a proton, in which we take proton as a bag. We discuss a few of results obtained using a six-dimension potential, which is attractive for small separation, originating from the color charge of hyper color term. We calculate the relativistic wave function for quarks in a scalar-vector hyper central potential, analytically. Finally, vanishing the normal component of vector current at the surface of the proton bag as a boundary condition equivalent to confinement. The calculated charge radius for proton is better than in the uncorrected versions of the model.
Tayer,H and Rajabi,A . (2019). Calculating charge radius for proton with hyper central interacting color potential. Iranian Journal of Physics Research, 9(2), 216-216.
MLA
Tayer,H , and Rajabi,A . "Calculating charge radius for proton with hyper central interacting color potential", Iranian Journal of Physics Research, 9, 2, 2019, 216-216.
HARVARD
Tayer H, Rajabi A. (2019). 'Calculating charge radius for proton with hyper central interacting color potential', Iranian Journal of Physics Research, 9(2), pp. 216-216.
CHICAGO
H Tayer and A Rajabi, "Calculating charge radius for proton with hyper central interacting color potential," Iranian Journal of Physics Research, 9 2 (2019): 216-216,
VANCOUVER
Tayer H, Rajabi A. Calculating charge radius for proton with hyper central interacting color potential. Iranian Journal of Physics Research. 2019;9(2):216-216 (In Persian).