none2noBaryon number conservation is generally believed to be an exact symmetry because of the extraordinary stability experimentally found for the proton. It is possible however to devise models in which the symmetry associated with the baryon number is no longer an absolute symmetry, without any conflict with experimental results.mixedDragoni M.; Tonon M.Dragoni M.; Tonon M
One of the fundamental constants of nature is the baryon asymmetry of the universe -- the ratio of t...
We investigate the possibility to find an ultraviolet completion of the simple extensions of the Sta...
The renormalizable couplings of the Standard Model are invariant under two accidental global symmetr...
Baryon number conservation is generally believed to be an exact symmetry because of the extraordinar...
The non-observation of proton decay strongly suggests that baryon number is a global U(1) (phase rot...
Baryon number, one of the accidental global symmetries of the Standard Model, can act as a key to op...
The non-observation of proton decay strongly suggests that baryon number is a global U(1) (phase ro...
In unification models based on SU(15) or SU(16), baryon number is part of the gauge symmetry, broken...
In unification models based on SU(15) or SU(16), baryon number is part of the gauge symmetry, broken...
This work is devoted to baryon and lepton number violation and flavour physics in theories beyond th...
We argue that the charge fractionalization in quarks has a hidden topological character related to a...
We investigate the possibility to find an ultraviolet completion of the simple extensions of the Sta...
The astonishing stability of ordinary matter is a mysterious fact established experimentally far bey...
We propose a new scenario of baryogenesis in the context of theories with large extra dimensions. Th...
The aim of this work is to propose a possible explanation of certain conservation laws which hold in...
One of the fundamental constants of nature is the baryon asymmetry of the universe -- the ratio of t...
We investigate the possibility to find an ultraviolet completion of the simple extensions of the Sta...
The renormalizable couplings of the Standard Model are invariant under two accidental global symmetr...
Baryon number conservation is generally believed to be an exact symmetry because of the extraordinar...
The non-observation of proton decay strongly suggests that baryon number is a global U(1) (phase rot...
Baryon number, one of the accidental global symmetries of the Standard Model, can act as a key to op...
The non-observation of proton decay strongly suggests that baryon number is a global U(1) (phase ro...
In unification models based on SU(15) or SU(16), baryon number is part of the gauge symmetry, broken...
In unification models based on SU(15) or SU(16), baryon number is part of the gauge symmetry, broken...
This work is devoted to baryon and lepton number violation and flavour physics in theories beyond th...
We argue that the charge fractionalization in quarks has a hidden topological character related to a...
We investigate the possibility to find an ultraviolet completion of the simple extensions of the Sta...
The astonishing stability of ordinary matter is a mysterious fact established experimentally far bey...
We propose a new scenario of baryogenesis in the context of theories with large extra dimensions. Th...
The aim of this work is to propose a possible explanation of certain conservation laws which hold in...
One of the fundamental constants of nature is the baryon asymmetry of the universe -- the ratio of t...
We investigate the possibility to find an ultraviolet completion of the simple extensions of the Sta...
The renormalizable couplings of the Standard Model are invariant under two accidental global symmetr...
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