Generalized Uhlenbeck-Goudsmit hypothesis 'Magnetic' Sa and 'Electric' Za Spins

Abstract

In this paper, the connection between the dipole moment tensor Dab and the spin four-tensor Sab is formulated in the form of the generalized Uhlenbeck-Goudsmit hypothesis, Dab=gSSab. It is also found that the spin four-tensor Sab can be decomposed into two 4-vectors, the usual `space-space' intrinsic angular momentum Sa, which will be called `magnetic' spin (mspin), and a new one, the `time-space' intrinsic angular momentum Za, which will be called `electric' spin (espin). Both spins are equally good physical quantities. Taking into account the generalized Uhlenbeck-Goudsmit hypothesis, the decomposition of Sab and the decomposition of Dab into the dipole moments ma and da, we find that an electric dipole moment (EDM) of a fundamental particle, as a four-dimensional (4D) geometric quantity, is determined by Za and not, as generally accepted, by the spin S as a 3-vector. Also it is shown that neither the T inversion nor the P inversion are good symmetries in the 4D spacetime. In this geometric approach, only the world parity W, Wxa=-xa, is well defined in the 4D spacetime. Some consequences for elementary particle theories and experiments that search for EDM are briefly discussed.