A possible shortcut for neutron–antineutron oscillation through mirror world

Existing bounds on the neutron-antineutron mass mixing, ϵ n n ¯ < few × 10 - 24  eV, impose a severe upper limit on n - n ¯ transition probability, P n n ¯ ( t ) < ( t / 0.1 s ) 2 × 10 - 18 or so, where t is the neutron flight time. Here we propose a new mechanism of n - n ¯ transition which i...

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Bibliographic Details
Published in:The European physical journal. C, Particles and fields Particles and fields, 2021, Vol.81 (1), p.1-11, Article 33
Main Author: Berezhiani, Zurab
Format: Article
Language:English
Subjects:
Antiparticles
Astronomy
Astrophysics and Cosmology
Cosmology
Elementary Particles
Flight time
Hadrons
Heavy Ions
Letter
Magnetic fields
Measurement Science and Instrumentation
Nuclear Energy
Nuclear Physics
Physics
Physics and Astronomy
Quantum Field Theories
Quantum Field Theory
String Theory
Transition probabilities
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Summary:Existing bounds on the neutron-antineutron mass mixing, ϵ n n ¯ < few × 10 - 24  eV, impose a severe upper limit on n - n ¯ transition probability, P n n ¯ ( t ) < ( t / 0.1 s ) 2 × 10 - 18 or so, where t is the neutron flight time. Here we propose a new mechanism of n - n ¯ transition which is not induced by direct mass mixing ϵ n n ¯ but is mediated instead by the neutron mass mixings with the hypothetical states of mirror neutron n ′ and mirror antineutron n ¯ ′ . The latter can be as large as ϵ n n ′ , ϵ n n ¯ ′ ∼ 10 - 15  eV or so, without contradicting present experimental limits and nuclear stability bounds. The probabilities of n - n ′ and n - n ¯ ′ transitions, P n n ′ and P n n ¯ ′ , depend on environmental conditions in mirror sector, and they can be resonantly amplified by applying the magnetic field of the proper value. This opens up a possibility of n - n ¯ transition with the probability P n n ¯ ≃ P n n ′ P n n ¯ ′ which can reach the values ∼ 10 - 8 or even larger. For finding this effect in real experiments, the magnetic field should not be suppressed but properly varied. These mixings can be induced by new physics at the scale of few TeV which may also originate a new low scale co-baryogenesis mechanism between ordinary and mirror sectors.
ISSN:1434-6044
1434-6052
DOI:10.1140/epjc/s10052-020-08824-9