Two θμ -deformed covariant relativistic quantum phase spaces as Poincare-Hopf algebroids

Abstract

We consider two quantum phase spaces which can be described by two Hopf algebroids linked with the well-known θμ -deformed D=4 Poincare-Hopf algebra H. The first algebroid describes θμ -deformed relativistic phase space with canonical NC space-time (constant θμ parameters) and the second one incorporates dual to H quantum θμ -deformed Poincare-Hopf group algebra G, which contains noncommutative space-time translations given by -dependent μ parameters (% μ parametrize classical Lorentz group). The canonical θμ -deformed space-time algebra and its quantum phase space extension is covariant under the quantum Poincare transformations described by G. We will also comment on the use of Hopf algebroids for the description of multiparticle structures in quantum phase spaces.