Thanks to the unnaturally small value of the QCD vacuum angle θˉ<10−10, time-reversal (T) violation offers a window into physics beyond
the Standard Model (SM) of particle physics. We review the
effective-field-theory framework that establishes a clean connection between
T-violating mechanisms, which can be represented by higher-dimensional
operators involving SM fields and symmetries, and hadronic interactions, which
allow for controlled calculations of low-energy observables involving strong
interactions. The chiral properties of T-violating mechanisms leads to a
pattern that should be identifiable in measurements of the electric dipole
moments of the nucleon and light nuclei.Comment: 35 pages. Accepted for publication in Ann. Rev. Nucl. Part. Sci. 65
(2015