Thomas-Reiche-Kuhn (TRK) sum rule for interacting photons

The Thomas-Reiche-Kuhn (TRK) sum rule is a fundamental consequence of the position-momentum commutation relation for an atomic electron, and it provides an important constraint on the transition matrix elements for an atom. Here, we propose a TRK sum rule for electromagnetic fields which is valid even in the presence of very strong light-matter interactions and/or optical nonlinearities. While the standard TRK sum rule involves dipole matrix moments calculated between atomic energy levels (in the absence of interaction with the field), the sum rule here proposed involves expectation values of field operators calculated between general eigenstates of the interacting light-matter system. This sum rule provides constraints and guidance for the analysis of strongly interacting light-matter systems and can be used to test the validity of approximate effective Hamiltonians often used in quantum optics.

Automated summary

The study proposes a TRK sum rule for electromagnetic fields that remains valid even in the presence of strong light-matter interactions or optical nonlinearities. Unlike the standard TRK sum rule, this proposed rule involves expectation values of field operators calculated between general eigenstates of the interacting light-matter system.