2014
DOI: 10.1038/ncomms6153
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Renormalization group running of neutrino parameters

Abstract: Neutrinos are the most elusive particles in our Universe. They have masses at least one million times smaller than the electron mass, carry no electric charge and very weakly interact with other particles, meaning that they are rarely captured in terrestrial detectors. Tremendous efforts in the past two decades have revealed that neutrinos can transform from one type to another as a consequence of neutrino oscillations-a quantum mechanical effect over macroscopic distances-yet the origin of neutrino masses rem… Show more

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Cited by 71 publications
(62 citation statements)
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References 140 publications
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“…In the first way, starting with the RGE of κ [43,45,57], one can derive a set of RGEs for neutrino masses and flavor mixing parameters. By inspecting the structure of those RGEs, some general running behavior of neutrino masses and lepton mixing angles can be observed [43,45,57,58]. However, a further more quantitative estimation on the size of these radiative corrections becomes formidable, as the RGEs are non-linear in nature and thus difficult to solve analytically.…”
Section: Analytical Resultsmentioning
confidence: 99%
“…In the first way, starting with the RGE of κ [43,45,57], one can derive a set of RGEs for neutrino masses and flavor mixing parameters. By inspecting the structure of those RGEs, some general running behavior of neutrino masses and lepton mixing angles can be observed [43,45,57,58]. However, a further more quantitative estimation on the size of these radiative corrections becomes formidable, as the RGEs are non-linear in nature and thus difficult to solve analytically.…”
Section: Analytical Resultsmentioning
confidence: 99%
“…However, the magnitude of the RG running is what would be expected from other analyses of seesaw models (see, e.g., ref. [39] and references therein). In the SM, the angles are all larger at M Z , with the smallest difference occurring for θ ℓ 13 , which is only 3 % larger, and the largest difference for θ ℓ 23 , which is 17 % larger.…”
Section: Jhep12(2014)052mentioning
confidence: 99%
“…Although σ = 0 is also predicted by the μ − τ reflection symmetry, having σ = 0 at the high energy boundary would lead to dramatic running in θ 12 . This can be seen from the following RG equation for θ 12 below the seesaw threshold [68][69][70][71]79 …”
Section: Breaking Due To Renormalization Group Runningmentioning
confidence: 99%
“…This stage of RG running is below the seesaw threshold, and its impact on the lepton mixing parameters has been extensively discussed in the literature, e.g., Refs. [68][69][70][71]. In particular, the breaking of μ−τ reflection symmetry due to this stage of RG running is investigated in Refs.…”
Section: Breaking Due To Renormalization Group Runningmentioning
confidence: 99%