Neutrinoless double β decay and leptogenesis in seesaw model
Abstract
The fermion νR+CνRT in the Type I seesaw model, which is commonly identified with a Majorana fermion, is not a Majorana fermion and thus no neutrinoless double β decay (in the case of νL-CνLT) due to the theorem on the absence of a Majorana-Weyl fermion in the representation of the d=4 Lorentz group. The leptogenesis is realized naturally together with the neutrinoless double β decay by first defining C symmetric Majorana fermions in the seesaw model using an analogue of the Bogoliubov transformation.
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