Universal lower bound on orbital periods around central compact objects

Abstract

It is proved, using the curved line element of a spherically symmetric charged object in general relativity and the Schwinger discharge mechanism of quantum field theory, that the orbital periods T∞ of test particles around central compact objects as measured by flat-space asymptotic observers are fundamentally bounded from below. The lower bound on orbital periods becomes universal (independent of the mass M of the central compact object) in the dimensionless MEc1 regime, in which case it can be expressed in terms of the electric charge e and the proper mass me of the lightest charged particle in nature: T∞>2π eGc2 m2e (here Ec=m2e/e is the critical electric field for pair production). The explicit dependence of the bound on the fundamental constants of nature \G,c,\ suggests that it may reflect a fundamental physical property of the elusive quantum theory of gravity.