Wang, Isaac R. scite author profile

Wang, Isaac R.

4Publications

26Citation Statements Received

355Citation Statements Given

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Rutgers, The State University of New Jersey

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Axiogenesis from SU(2)R phase transition

Harigaya

2021

J. High Energ. Phys.

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The baryon asymmetry of the universe may be explained by rotations of the QCD axion in field space and baryon number violating processes. We consider the minimal extension of the Standard Model by a non-Abelian gauge interaction, SU(2)R, whose sphaleron process violates baryon number. Assuming that axion dark matter is also created from the axion rotation by the kinetic misalignment mechanism, the mass scale of the SU(2)R gauge boson is fixed as a function of the QCD axion decay constant, and vise versa. Significant portion of the parameter space has already been excluded by new gauge boson searches, and the high-luminocity LHC will further probe the viable parameter space.

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Dark Photons and Displaced Vertices at the MUonE Experiment

Galon¹,

Shih²,

R.³

2022

Preprint

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MUonE is a proposed experiment designed to measure the hadronic vacuum polarization contribution to muon g − 2 through elastic µ − e scattering. As such it employs an extremely high-resolution tracking apparatus. We point out that this makes MUonE also a very promising experiment to search for displaced vertices from light, weakly-interacting new particles. We demonstrate its potential by showing how it has excellent sensitivity to dark photons in the mass range 10 MeV ≤ m A ≤ 100 MeV and kinetic mixing parameter 10 −5 ≤ e ≤ 10 −3 , through the process µ − e − → µ − e − A followed by A → e + e − .

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Electroweak-like baryogenesis with new chiral matter

Fujikura

Harigaya

Nakai

et al. 2021

J. High Energ. Phys.

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We propose a framework where a phase transition associated with a gauge symmetry breaking that occurs (not far) above the electroweak scale sets a stage for baryogenesis similar to the electroweak baryogenesis in the Standard Model. A concrete realization utilizes the breaking of SU(2)R× U(1)X→ U(1)Y. New chiral fermions charged under the extended gauge symmetry have nonzero lepton numbers, which makes the B − L symmetry anomalous. The new lepton sector contains a large flavor-dependent CP violation, similar to the Cabibbo-Kobayashi-Maskawa phase, without inducing sizable electric dipole moments of the Standard Model particles. A bubble wall dynamics associated with the first-order phase transition and SU(2)R sphaleron processes generate a lepton asymmetry, which is transferred into a baryon asymmetry via the ordinary electroweak sphaleron process. Unlike the Standard Model electroweak baryogenesis, the new phase transition can be of the strong first order and the new CP violation is not significantly suppressed by Yukawa couplings, so that the observed asymmetry can be produced. The model can be probed by collider searches for new particles and the observation of gravitational waves. One of the new leptons becomes a dark matter candidate. The model can be also embedded into a left-right symmetric theory to solve the strong CP problem.

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Erratum to: Axiogenesis from SU(2)R phase transition

Harigaya

2021

J. High Energ. Phys.

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Wang, Isaac R.

Axiogenesis from SU(2)R phase transition

Dark Photons and Displaced Vertices at the MUonE Experiment

Electroweak-like baryogenesis with new chiral matter

Erratum to: Axiogenesis from SU(2)R phase transition

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