6533b871fe1ef96bd12d1822
RESEARCH PRODUCT
On CPT Symmetry: Cosmological, Quantum-Gravitational and Other Possible Violations and Their Phenomenology
Nick E. MavromatosNick E. Mavromatossubject
GravitationPhysicsParticle physicsQuantum decoherenceCPT symmetryHigh Energy Physics::PhenomenologyQuantum gravityHigh Energy Physics::ExperimentCosmological constantPhenomenology (particle physics)QuantumS-matrixdescription
I discuss various ways in which CPT symmetry may be violated, and their phenomenology in current or immediate future experimental facilities, both terrestrial and astrophysical. Specifically, I discuss first violations of CPT symmetry due to the impossibility of defining a scattering matrix as a consequence of the existence of microscopic or macroscopic space-time boundaries, such as Planck-scale Black-Hole (event) horizons, or cosmological horizons due to the presence of a (positive) cosmological constant in the Universe. Second, I discuss CPT violation due to breaking of Lorentz symmetry, which may characterize certain approaches to quantum gravity, and third, I describe models of CPT non invariance due to violations of locality of interactions. In each of the above categories I discuss experimental sensitivities. I argue that the majority of Lorentz-violating cases of CPT breaking, with minimal (linear) suppression by the Planck-mass scale, are already excluded by current experimental tests. There are however some (stringy) models which can evade these constraints.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2004-01-01 |