1. The Neutron Lifetime Discrepancy and Its Implications for Cosmology and Dark Matter.
- Author
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Wietfeldt, Fred E.
- Subjects
- *
WEAK interactions (Nuclear physics) , *PARTICLE decays , *DARK matter , *NEUTRONS , *ASTROPHYSICS , *NUCLEOSYNTHESIS - Abstract
Free neutron decay is the prototype for nuclear beta decay and other semileptonic weak particle decays. It provides important insights into the symmetries of the weak nuclear force. Neutron decay is important for understanding the formation and abundance of light elements in the early universe. The two main experimental approaches for measuring the neutron lifetime, the beam method and the ultracold neutron storage method, have produced results that currently differ by 9.8 ± 2.0 s. While this discrepancy probably has an experimental origin, a more exciting prospect is that it may be explained by new physics, with possible connections to dark matter. The experimental status of the neutron lifetime is briefly reviewed, with an emphasis on its implications for cosmology, astrophysics, and dark matter. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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