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. Dear user; Recently we have changed our software to Sinaweb. If you had already registered with the old site, you may use the same USERNAME but you need to change your password. To do so at the first use, please choose, 2019; 9(2): 216-216.
