Electric-magnetic duality as a quantum operator and more symmetries of U(1) gauge theory

Abstract

We promote the Noether charge of the electric-magnetic duality symmetry of U(1) gauge theory, "G" to a quantum operator. We construct ladder operators, D()a(k) and D()a(k) which create and annihilate the simultaneous quantum eigen states of the quantum Hamiltonian(or number) and the electric-magnetic duality operators respectively. Therefore all the quantum states of the U(1) gauge fields can be expressed by a form of |E,g, where E is the energy of the state, the g is the eigen value of the quantum operator G, where the g is quantized in the unit of 1. We also show that 10 independent bilinears comprised of the creation and annihilation operators can form SO(2,3) which is as demonstrated in the Dirac's paper published in 1962. The number operator and the electric-magnetic duality operator are the members of the SO(2,3) generators. We note that there are two more generators which commute with the number operator(or Hamiltonian). We prove that these generators are indeed symmetries of the U(1) gauge field theory action.