Time-Reversal Invariance Violation in Heavy and in Few-body Nuclei
Vladimir Gudkov, Young-Ho Song
TL;DR
This paper discusses the significance of time-reversal invariance violation effects in neutron scattering for exploring new physics, emphasizing their sensitivity to CP-violation models and nuclear structure dependencies.
Contribution
It analyzes how TRIV effects in neutron scattering can reveal new physics and explores their dependence on nuclear structure and CP-violation models.
Findings
TRIV effects are sensitive to different CP-violation models
Nuclear structure can enhance TRIV observables
Neutron scattering provides a complementary approach to EDM measurements
Abstract
Time reversal invariance violating (TRIV) effects in neutron scattering are very important in a search for new physics, being complementary to neutron and atomic electric dipole moment measurements. In this relation, a sensitivity of TRIV observables to different models of CP-violation and their dependencies on nuclear structure, which can lead to new enhancement factors, are discussed.
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