Momentum Gauge Fields and Non-Commutative Space-Time

Abstract

In this work we present a gauge principle that starts with the momentum space representation of the position operator ( xi = i ∂∂ pi) rather than starting with the position space representation of the momentum operator ( pi = -i ∂∂ xi). We discuss some simple examples with this new type of gauge theory: (i) analog solutions from ordinary gauge theory in this momentum gauge theory, (ii) Landau levels using momentum gauge fields, (iii) the emergence of non-commutative space-times from the momentum gauge fields. We find that the non-commutative space-time parameter can be momentum dependent, and one can construct a model where space-time is commutative at low momentum but becomes non-commutative at high momentum.