Add to ORKGAbstract. We consider the low energy constraints that can be applied to type I see-saw extensions of the Standard Model in which the right-handed neutrinos are taken at the electroweak scale. In the reported scenarios, the flavour structure of the charged current and neutral current weak interactions of the Standard Model leptons with the heavy right-handed neutrinos is essentially determined by the neutrino oscillation parameters. In this case, correlations among different measurable phenomena in the lepton sector may provide compelling indirect evidence of low energy see-saw mechanism of neutrino mass generation. 1
AbstractWe construct a model in which the neutrino Dirac mass terms are of order the electron mass a...
We consider a variant of TeV scale seesaw model in which three additional heavy right handed neutrin...
We consider the Standard Model extended by right-handed neutrinos to explain massive neutrinos throu...
We study a type I see-saw scenario where the right-handed (RH) neutrinos, responsible for the li...
The see-saw mechanism to generate small neutrino masses is reviewed. After summarizing our current k...
The see-saw mechanism to generate small neutrino masses is reviewed. After summarizing our current ...
We propose a low energy extension of the Standard Model consisting of an additional gauged U(1)B-L p...
We consider a version of the low-scale type I seesaw mechanism for generating small neutrino masses,...
The origin of light neutrino masses remains an unknown, though at present the most widely accepted m...
In the context of Standard Model (SM) extensions, the seesaw mechanism provides the most natural exp...
Radiative neutrino mass models and the seesaw models are viewed from the unifying framework of stand...
Abstract Heavy neutrinos with masses below the electroweak scale can simultaneously generate the lig...
In some classes of flavour models based on unified theories with a type I see-saw mechanism, the pre...
The right-handed neutrinos within the type-I seesaw mechanism can induce large radiative corrections...
The existence of the tiny neutrino mass and the flavor mixing can be naturally explained by type I S...
AbstractWe construct a model in which the neutrino Dirac mass terms are of order the electron mass a...
We consider a variant of TeV scale seesaw model in which three additional heavy right handed neutrin...
We consider the Standard Model extended by right-handed neutrinos to explain massive neutrinos throu...
We study a type I see-saw scenario where the right-handed (RH) neutrinos, responsible for the li...
The see-saw mechanism to generate small neutrino masses is reviewed. After summarizing our current k...
The see-saw mechanism to generate small neutrino masses is reviewed. After summarizing our current ...
We propose a low energy extension of the Standard Model consisting of an additional gauged U(1)B-L p...
We consider a version of the low-scale type I seesaw mechanism for generating small neutrino masses,...
The origin of light neutrino masses remains an unknown, though at present the most widely accepted m...
In the context of Standard Model (SM) extensions, the seesaw mechanism provides the most natural exp...
Radiative neutrino mass models and the seesaw models are viewed from the unifying framework of stand...
Abstract Heavy neutrinos with masses below the electroweak scale can simultaneously generate the lig...
In some classes of flavour models based on unified theories with a type I see-saw mechanism, the pre...
The right-handed neutrinos within the type-I seesaw mechanism can induce large radiative corrections...
The existence of the tiny neutrino mass and the flavor mixing can be naturally explained by type I S...
AbstractWe construct a model in which the neutrino Dirac mass terms are of order the electron mass a...
We consider a variant of TeV scale seesaw model in which three additional heavy right handed neutrin...
We consider the Standard Model extended by right-handed neutrinos to explain massive neutrinos throu...