SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2227162847> ?p ?o ?g. }

Showing items 1 to 100 of ±122 with 100 items per page.

W2227162847 abstract "We propose a new scenario for baryogenesis through leptogenesis, where the $CP$ phase relevant for leptogenesis is connected directly to the Pontecorvo-Maki-Nakagawa-Sakada (PMNS) phase(s) in the light neutrino mixing matrix. The scenario is realized in the case when only one $CP$ phase appears in the full theory, originating from the complex vacuum expextation value of a standard model singlet field. In order to realize this scheme, the electroweak symmetry is required to be broken during the leptogenesis era, and a new loop diagram with an intermediate $W$ boson exchange including the low-energy neutrino mixing matrix should play the dominant contribution to the $CP$ violation for leptogenesis. In this article, we discuss the new basic mechanism, which we call type-II leptogenesis, and give an estimate for maximally reachable baryon asymmetry depending on the PMNS phases." @default.
W2227162847 created "2016-06-24" @default.
W2227162847 creator A5029190197 @default.
W2227162847 creator A5037848519 @default.
W2227162847 creator A5067744447 @default.
W2227162847 creator A5081524875 @default.
W2227162847 date "2016-09-07" @default.
W2227162847 modified "2023-10-13" @default.
W2227162847 title "Leptogenesis with high-scale electroweak symmetry breaking and an extended Higgs sector" @default.
W2227162847 cites W1505212291 @default.
W2227162847 cites W1513677364 @default.
W2227162847 cites W1580192903 @default.
W2227162847 cites W1830866057 @default.
W2227162847 cites W1942511115 @default.
W2227162847 cites W1955549570 @default.
W2227162847 cites W1965142446 @default.
W2227162847 cites W1995195744 @default.
W2227162847 cites W1997985887 @default.
W2227162847 cites W2007215441 @default.
W2227162847 cites W2024693759 @default.
W2227162847 cites W2025808702 @default.
W2227162847 cites W2040518718 @default.
W2227162847 cites W2042508719 @default.
W2227162847 cites W2046088522 @default.
W2227162847 cites W2046698259 @default.
W2227162847 cites W2049817464 @default.
W2227162847 cites W2051549451 @default.
W2227162847 cites W2059777410 @default.
W2227162847 cites W2065754652 @default.
W2227162847 cites W2075456758 @default.
W2227162847 cites W2138798032 @default.
W2227162847 cites W2145116813 @default.
W2227162847 cites W2149631226 @default.
W2227162847 cites W2159705690 @default.
W2227162847 cites W2169090745 @default.
W2227162847 cites W2595129576 @default.
W2227162847 cites W2981313176 @default.
W2227162847 cites W3100361248 @default.
W2227162847 cites W3102772221 @default.
W2227162847 cites W3103175570 @default.
W2227162847 cites W3105468582 @default.
W2227162847 cites W3105876881 @default.
W2227162847 cites W3106243403 @default.
W2227162847 cites W4237105740 @default.
W2227162847 cites W4240654682 @default.
W2227162847 cites W2152038015 @default.
W2227162847 doi "https://doi.org/10.1103/physrevd.94.065004" @default.
W2227162847 hasPublicationYear "2016" @default.
W2227162847 type Work @default.
W2227162847 sameAs 2227162847 @default.
W2227162847 citedByCount "10" @default.
W2227162847 countsByYear W22271628472016 @default.
W2227162847 countsByYear W22271628472017 @default.
W2227162847 countsByYear W22271628472018 @default.
W2227162847 countsByYear W22271628472019 @default.
W2227162847 countsByYear W22271628472020 @default.
W2227162847 crossrefType "journal-article" @default.
W2227162847 hasAuthorship W2227162847A5029190197 @default.
W2227162847 hasAuthorship W2227162847A5037848519 @default.
W2227162847 hasAuthorship W2227162847A5067744447 @default.
W2227162847 hasAuthorship W2227162847A5081524875 @default.
W2227162847 hasBestOaLocation W22271628471 @default.
W2227162847 hasConcept C101454708 @default.
W2227162847 hasConcept C109214941 @default.
W2227162847 hasConcept C121332964 @default.
W2227162847 hasConcept C147120987 @default.
W2227162847 hasConcept C158129726 @default.
W2227162847 hasConcept C166957645 @default.
W2227162847 hasConcept C17863212 @default.
W2227162847 hasConcept C179203047 @default.
W2227162847 hasConcept C185544564 @default.
W2227162847 hasConcept C186453547 @default.
W2227162847 hasConcept C204795200 @default.
W2227162847 hasConcept C2779293552 @default.
W2227162847 hasConcept C2781052526 @default.
W2227162847 hasConcept C2781073886 @default.
W2227162847 hasConcept C38976095 @default.
W2227162847 hasConcept C40976572 @default.
W2227162847 hasConcept C41002478 @default.
W2227162847 hasConcept C76655392 @default.
W2227162847 hasConcept C95457728 @default.
W2227162847 hasConceptScore W2227162847C101454708 @default.
W2227162847 hasConceptScore W2227162847C109214941 @default.
W2227162847 hasConceptScore W2227162847C121332964 @default.
W2227162847 hasConceptScore W2227162847C147120987 @default.
W2227162847 hasConceptScore W2227162847C158129726 @default.
W2227162847 hasConceptScore W2227162847C166957645 @default.
W2227162847 hasConceptScore W2227162847C17863212 @default.
W2227162847 hasConceptScore W2227162847C179203047 @default.
W2227162847 hasConceptScore W2227162847C185544564 @default.
W2227162847 hasConceptScore W2227162847C186453547 @default.
W2227162847 hasConceptScore W2227162847C204795200 @default.
W2227162847 hasConceptScore W2227162847C2779293552 @default.
W2227162847 hasConceptScore W2227162847C2781052526 @default.
W2227162847 hasConceptScore W2227162847C2781073886 @default.
W2227162847 hasConceptScore W2227162847C38976095 @default.
W2227162847 hasConceptScore W2227162847C40976572 @default.
W2227162847 hasConceptScore W2227162847C41002478 @default.
W2227162847 hasConceptScore W2227162847C76655392 @default.
W2227162847 hasConceptScore W2227162847C95457728 @default.