Parity violation in neutron spin rotation

Snow, W. M.

doi:10.1007/978-3-540-74413-9_26

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Reactor Experiments To Search For Neutron Oscillation1

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2009

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“…Clearly, the slower the neutrons the bigger is the time of flight. A possibility that is being pursued is to use ultracold neutrons with ∼100 neV kinetic energies which move with speeds of order 4-5 m s −1 and are trapped in a bottle [18] and may become competitive with cold reactor beam experiments in the near future [19].…”

Section: Reactor Experiments To Search For Neutron Oscillationmentioning

confidence: 99%

Neutron–anti-neutron oscillation: theory and phenomenology

Mohapatra

2009

J. Phys. G: Nucl. Part. Phys.

102

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The discovery of neutrino masses has provided strong hints in favor of the possibility that B-L symmetry is an intimate feature of physics beyond the standard model. I discuss how important information about this symmetry as well as other scenarios for TeV scale new physics can be obtained from the baryon number violating process, n −n oscillation. This article presents an overview of different aspects of neutron-antineutron oscillation and is divided into the following parts : (i) the phenomenon; (ii) the physics, (iii) plausible models and (iv) applications to cosmology. In particular, it is argued how the discovery of n −n oscillation can significantly affect our thinking about simple grand unified theory paradigms for physics beyond the standard model, elucidate the nature of forces behind neutrino mass and provide a new microphysical view of the origin of matter in the universe.

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Section: Reactor Experiments To Search For Neutron Oscillationmentioning

confidence: 99%