摘要
Starting from quantum chromodynamics,we find that aside from some terms that contribute only via the mixing of different Fock components,the baryon magnetic moment can be expressed as μB=[∑_(q)Q_(q)/(2<k0>_(q))](2S_(q)-2S_(q)+L_(q)-L_(q)),where<k0>q is the q flavor quarks average relativistic energy inside the baryon,and S_(q),L_(q),S_(q),L_(q) are quark and antiquark's relativistic spin and orbital contributions to baryon spin.We demonstrate that within an error of 1/6,this expression can be parameterized as ∑_(q)[Q_(q)/(2m^(eff)_(q))](2s_(q)-2s_(q)),(where s is the nonrelativistic Pauli spin contribution and m^(eff)_(q) is of the order of the constituent quark mass)which is just what the nonrelativistic constituent quark model adopts to give a good account of octet baryon magnetic moments.
基金
Supported by the National Natural Science Foundation of China under Grant No.19675018.
