2+1 dimensional loop quantum cosmology of Bianchi I models

Abstract

We study the anisotropic Bianchi I loop quantum cosmology in 2+1 dimensions. Both the μbar and μbar' schemes are considered in the present paper and the following expected results are established: (i) the massless scalar field again play the role of emergent time variables and serves as an internal clock; (ii) By imposing the fundamental discreteness of length operator, the total Hamiltonian constraint is obtained and gives rise the evolution as a difference equation; and (iii) the exact solutions of Friedmann equation are constructed rigorously for both classical and effective level. The investigation extends the domain of validity of loop quantum cosmology to beyond the four dimensions.