4.7 Article

Deformed relativistic kinematics on curved spacetime: a geometric approach

Journal

EUROPEAN PHYSICAL JOURNAL C
Volume 82, Issue 2, Pages -

Publisher

SPRINGER
DOI: 10.1140/epjc/s10052-022-10066-w

Keywords

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Funding

  1. Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) [420243324]
  2. INFN Iniziativa Specifica GeoSymQFT
  3. COST Action QGMM [CA18108]

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This article presents a systematic analysis of how deformed relativistic kinematics can be lifted to curved spacetimes in terms of a self-consistent cotangent bundle geometry. The analysis shows that momentum space metrics can be consistently lifted to curved spacetimes if they satisfy certain conditions. The article also discusses the connection between this construction and non-commutative spacetimes.
Deformed relativistic kinematics have been considered as a way to capture residual effects of quantum gravity. It has been shown that they can be understood geometrically in terms of a curved momentum space on a flat spacetime. In this article we present a systematic analysis under which conditions and how deformed relativistic kinematics, encoded in a momentum space metric on flat spacetime, can be lifted to curved spacetimes in terms of a self-consistent cotangent bundle geometry, which leads to purely geometric, geodesic motion of freely falling point particles. We comment how this construction is connected to, and offers a new perspective on, non-commutative spacetimes. From geometric consistency conditions we find that momentum space metrics can be consistently lifted to curved spacetimes if they either lead to a dispersion relation which is homogeneous in the momenta, or, if they satisfy a specific symmetry constraint. The latter is relevant for the momentum space metrics encoding the most studied deformed relativistic kinematics. For these, the constraint can only be satisfied in a momentum space basis in which the momentum space metric is invariant under linear local Lorentz transformations. We discuss how this result can be interpreted and the consequences of relaxing some conditions and principles of the construction from which we started.

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