Matrix model for noncommutative gravity and gravitational instantons
Abstract
We introduce a matrix model for noncommutative gravity, based on the gauge group U(2) U(2). The vierbein is encoded in a matrix Yμ, having values in the coset space U(4)/ (U(2) U(2)), while the spin connection is encoded in a matrix Xμ, having values in U(2) U(2). We show how to recover the Einstein equations from the θ 0 limit of the matrix model equations of motion. We stress the necessity of a metric tensor, which is a covariant representation of the gauge group in order to set up a consistent second order formalism. We finally define noncommutative gravitational instantons as generated by U(2) U(2) valued quasi-unitary operators acting on the background of the Matrix model. Some of these solutions have naturally self-dual or anti-self-dual spin connections.
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