Modified constraint algebra in loop quantum gravity and spacetime interpretation

Classically, the constraint algebra of general relativity, which generates gauge transformations, is equivalent to spacetime covariance. In LQG, inverse triad corrections lead to an effective Hamiltonian constraint, which can lead to a modified constraint algebra. We have shown, using example of spherically symmetric spacetimes, that a modified constraint algebra does not correspond to spacetime coordinate transformation. In such a scenario, the notion of black hole horizon, which is based on spacetime notions, also needs to be reconsidered. A possible modification to the classical trapping horizon condition leading to consistent results is suggested. In the case where the constraint algebra is not modified, a spacetime picture is valid and one finds mass threshold for black holes and small corrections to Hawking temperature.