Curvature of appa-Poincare and Doubly Special Relativity

Abstract

We study the appa-Poincare and the Magueijo-Smolin (MS) DSR in the context of the relative locality theory. This theory assigns connection, torsion and curvature to momentum space of every modified theory beyond special relativity. We obtain these quantities for the appa-Poincare and the MS DSR in all order of the Planck length, at the every point of the momentum space. The connection for the appa-Poincare theory and the MS DSR can be non-zero. The torsion for the appa-Poincare theory can also be non-zero, but it is zero for the MS DSR. The curvature for the appa-Poincare theory and the MS DSR are zero. We will find that the non-zero torsion and curvature of the momentum space implies a non-commutative spactime which is tangent to this momentum space. Also, we show that the torsion for every Abelian DSR theory is zero at the origin of the momentum space. At the end, we will discus dual spacetime transformations for the appa-Poincare theory and MS-DSR.