Chiral Symmetries and Low Energy Searches for New Physics
Michael J. Ramsey-Musolf
TL;DR
This paper reviews how chiral symmetries influence low energy experiments searching for new physics beyond the Standard Model, emphasizing electric dipole moments, weak decays, electron scattering, and neutrino interactions.
Contribution
It highlights the importance of chiral symmetries in guiding low energy searches for physics beyond the Standard Model and discusses specific experimental probes.
Findings
Chiral symmetries constrain new physics effects in low energy processes.
Electric dipole moment searches are sensitive probes of CP violation.
Precision studies of weak decays and neutrino interactions can reveal new physics.
Abstract
I discuss low energy searches for new physics beyond the Standard Model, identifying the role played by chiral symmetries in these searches and in various new physics scenarios. I focus in particular on electric dipole moment searches; precision studies of weak decays and electron scattering; and neutrino properties and interactions.
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