WHAT DO WE LEARN FROM ATOMIC PHYSICS ABOUT FUNDAMENTAL SYMMETRIES IN NUCLEI AND PARTICLES

Details WHAT DO WE LEARN FROM ATOMIC PHYSICS ABOUT FUNDAMENTAL SYMMETRIES IN NUCLEI AND PARTICLES WHAT DO WE LEARN FROM ATOMIC PHYSICS ABOUT FUNDAMENTAL SYMMETRIES IN NUCLEI AND PARTICLES

1995-02-08

arxiv.org/abs/nucl-th/9502024v1

Physics

Nuclear Physics

Nuclear Theory

8 pages. Talk at Moriond 95 Workshop: Dark Matter in Cosmology, Clocks and Tests of Fundamental Laws)

Scientific paper

Atomic experiments bring meaningful and valuable information on fundamental symmetries. The hypothesis of a large ($\sim 100$ eV) P-odd weak matrix element between single-particle states in heavy nuclei is inconsistent with the results of atomic PNC experiments. Upper limits on CP-violation obtained in atomic and molecular spectroscopy are as informative as those established in neutron physics. Very strict upper limits on T-odd, P-even interactions (nucleon-nucleon, electron-nucleon, electron-electron, and $\beta$-decay) are derived from the same atomic and neutron experiments.

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