{"data":{"abstract":{"value":"
In this work, we investigate the connection and compatibility between reactions and oscillations based on the symmetry model with additional Higgs triplets. We explore the possibility that the scattering process produced by low-energy solar neutrinos gives rise to an unavoidable background in the measurements of oscillations. We focus on two different scenarios, depending on whether the () symmetry could be broken. We analyze the interplay of the various constraints on the two processes and their observable consequences. In the scenario where both () and () could be broken, we point out that if all the requirements, mainly arising from the type-II seesaw mechanism, are satisfied, the parameter space would be severely constrained. In this case, although the masses of the Higgs triplet bosons could be within the reach of a direct detection at the LHC or future high-energy experiments, the predicted oscillation times would be completely beyond the detectable regions of the present experiments. In both scenarios, the present experiments are unable to distinguish a reaction event from an oscillation event within the accessible energy range. Nevertheless, if any of the two processes is detected, there could be signal associated with new physics beyond the Standard Model.
","format":"html"},"articleType":"article","authors":[{"type":"Person","name":"Yongliang Hao","firstname":"Yongliang","surname":"Hao","affiliationIds":["a1"]}],"affiliations":[{"name":"Van Swinderen Institute for Particle Physics and Gravity, University of Groningen, Nijenborgh 4, 9747AG Groningen, The Netherlands","id":"a1"}],"notes":[{"format":"html","value":"y.hao@rug.nl
","label":"*","id":"n1","type":"contrib"}],"date":"2020-03-24","type":"article","metadata_last_modified_at":"2020-03-24T14:27:49+0000","last_modified_at":"2020-03-24T14:27:49+0000","id":"10.1103/PhysRevD.101.056015","identifiers":{"doi":"10.1103/PhysRevD.101.056015","arxiv":"arXiv:1912.04188"},"issue":{"number":"5"},"pageStart":"056015","hasArticleId":true,"numPages":15,"classificationSchemes":{"physh":{"concepts":[{"id":"bf8ac618-dcbe-4098-91c1-f781ef555e5d","facet":{"id":"bdb1ef91-b776-4e36-8f8f-3e93666bac1e"},"primary":true},{"id":"25bc4713-6ee8-4a66-8ab3-a3e33090c90e","facet":{"id":"bdb1ef91-b776-4e36-8f8f-3e93666bac1e"},"primary":false}],"disciplines":["9f5c878e-b7b7-4030-bdb9-21a24ad97422"]}},"publisher":{"name":"APS"},"rights":{"rightsStatement":"Published by the American Physical Society","copyrightYear":2020,"copyrightHolders":[],"creativeCommons":true,"licenses":[{"url":"https://creativecommons.org/licenses/by/4.0/","licenseStatement":"Published by the American Physical Society under the terms of the Creative Commons Attribution 4.0 International license. Further distribution of this work must maintain attribution to the author(s) and the published article’s title, journal citation, and DOI. Funded by SCOAP3."}]},"journal":{"id":"PRD","abbreviatedName":"Phys. Rev. D","name":"Physical Review D"},"title":{"value":"Connection between reactions and oscillations via additional Higgs triplet bosons","format":"html"},"tocSection":{"label":"Phenomenological aspects of field theory, general methods"},"volume":{"number":"101"}}}