We consider the relativistic electron-positron field interacting with itself via the Coulomb potential defined with the physically motivated, positive, density-density quartic interaction. The more usual normal-ordered Hamiltonian differs from the bare Hamiltonian by a quadratic term and, by choosing the normal ordering in a suitable, self-consistent manner, the quadratic term can be seen to be equivalent to a renormalization of the Dirac operator. Formally, this amounts to a Bogolubov-Valatin transformation, but in reality it is non-perturbative, for it leads to an inequivalent, fine-structure dependent representation of the canonical anticommutation relations. This non-perturbative redefinition of the electron/positron states can be interpreted as a mass, wave-function and charge renormalization, among other possibilities, but the main point is that a non-perturbative definition of normal ordering might be a useful starting point for developing a consistent quantum electrodynamics.

Publié le : 2000-03-02
Classification:  Mathematical Physics,  High Energy Physics - Theory

@article{0003001,
     author = {Lieb, Elliott H. and Siedentop, Heinz},
     title = {Renormalization of the Regularized Relativistic Electron-Positron Field},
     journal = {arXiv},
     volume = {2000},
     number = {0},
     year = {2000},
     language = {en},
     url = {http://dml.mathdoc.fr/item/0003001}
}

Lieb, Elliott H.; Siedentop, Heinz. Renormalization of the Regularized Relativistic Electron-Positron Field. arXiv, Tome 2000 (2000) no. 0, . http://gdmltest.u-ga.fr/item/0003001/