Add to ORKGWe propose and investigate a novel, minimal, and experimentally testable framework for baryogenesis, dubbed dexiogenesis, using baryon number violating effective interactions of right-handed Majorana neutrinos responsible for the seesaw mechanism. The distinct LHC signature of our framework is same-sign top quark final states, possibly originating from displaced vertices. The region of parameters relevant for LHC phenomenology can also yield concomitant signals in nucleon decay experiments. We provide a simple ultraviolet origin for our effective operators, by adding a color-triplet scalar, which could ultimately arise from a grand unified theory
We discuss the impact of the observation of neutrinoless double beta decay on the washout of lepton ...
Dirac neutrinos with lepton-number-violating interactions can give rise to a new leptogenesis mechan...
The renormalizable couplings of the Standard Model are invariant under two accidental global symmetr...
We propose and investigate a novel, minimal, and experimentally testable framework for baryogenesis,...
We propose and investigate a novel, minimal, and experimentally testable framework for baryo- genesi...
We investigate the feasibility of directly detecting a generation mechanism of the cosmic baryon asy...
If the neutrino is Majorana type and the electroweak phase transition is second or weak first order,...
Interactions that manifest themselves as lepton number violating processes at low energies in combin...
We propose a leptogenesis scenario where baryon asymmetry generation is assisted by the kinetic moti...
Explaining the origin of neutrino masses clearly requires new physics beyond the Standard Model. I f...
We propose an extension of the standard model (SM) by including a dark sector comprised of three gen...
If the neutrino is Majorana type and the electroweak phase transition is second or weak first order,...
We present a new mechanism for generating the baryon asymmetry of the universe directly in the decay...
Models of neutrino mass generation constitute well motivated scenarios of Beyond-the-Standard-Model ...
[[abstract]]We propose that a hierarchical spectrum of sterile neutrinos (eV, keV, 1013–15 GeV) is c...
We discuss the impact of the observation of neutrinoless double beta decay on the washout of lepton ...
Dirac neutrinos with lepton-number-violating interactions can give rise to a new leptogenesis mechan...
The renormalizable couplings of the Standard Model are invariant under two accidental global symmetr...
We propose and investigate a novel, minimal, and experimentally testable framework for baryogenesis,...
We propose and investigate a novel, minimal, and experimentally testable framework for baryo- genesi...
We investigate the feasibility of directly detecting a generation mechanism of the cosmic baryon asy...
If the neutrino is Majorana type and the electroweak phase transition is second or weak first order,...
Interactions that manifest themselves as lepton number violating processes at low energies in combin...
We propose a leptogenesis scenario where baryon asymmetry generation is assisted by the kinetic moti...
Explaining the origin of neutrino masses clearly requires new physics beyond the Standard Model. I f...
We propose an extension of the standard model (SM) by including a dark sector comprised of three gen...
If the neutrino is Majorana type and the electroweak phase transition is second or weak first order,...
We present a new mechanism for generating the baryon asymmetry of the universe directly in the decay...
Models of neutrino mass generation constitute well motivated scenarios of Beyond-the-Standard-Model ...
[[abstract]]We propose that a hierarchical spectrum of sterile neutrinos (eV, keV, 1013–15 GeV) is c...
We discuss the impact of the observation of neutrinoless double beta decay on the washout of lepton ...
Dirac neutrinos with lepton-number-violating interactions can give rise to a new leptogenesis mechan...
The renormalizable couplings of the Standard Model are invariant under two accidental global symmetr...