Speaker
Heinrich Paes
(TU Dortmund University)
Description
Quantum gravitational effects are expected to reveal themselves at extreme energies, cosmological distances, in a break-down of standard quantum mechanics, or in the breaking of global symmetries. Neutrinos offer a unique potential to probe such effects: they are perfect quantum probes, their masses may be related to lepton number or flavor and thus global symmetry breaking and extra-galactic neutrinos have been observed at energies way above the PeV scale. We discuss Lepton Number Violation, Quantum-Gravitational Decoherence, Altered Dispersion Relations, Holographic Scaling and Entanglement Measures and assess the future perspectives to probe quantum gravity at neutrino telescopes.
| Neutrino Properties | N/A |
|---|---|
| Neutrino Telescopes & Multi-messenger | Exploration of Quantum Gravity with Neutrino Telescopes |
| Neutrino Theory & Cosmology | Quantum Gravity and Neutrinos |
| Data Science and Detector R&D | N/A |
Author
Heinrich Paes
(TU Dortmund University)
