Left-right symmetry: from the LHC to neutrinoless double beta decay.

@article{Tello2011LeftrightSF,
  title={Left-right symmetry: from the LHC to neutrinoless double beta decay.},
  author={Vladimir Tello and Miha Nemev{\vs}ek and Fabrizio Nesti and Goran Senjanovic and F. Vissani},
  journal={Physical review letters},
  year={2011},
  volume={106 15},
  pages={
          151801
        }
}
The Large Hadron Collider has the potential to probe the scale of left-right symmetry restoration and the associated lepton number violation. Moreover, it offers the hope of measuring the right-handed leptonic mixing matrix. We show how this, together with constraints from lepton flavor violating processes, can be used to make predictions for neutrinoless double beta decay. We illustrate this connection in the case of the type-II seesaw. 

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References

SHOWING 1-10 OF 20 REFERENCES
"J."
however (for it was the literal soul of the life of the Redeemer, John xv. io), is the peculiar token of fellowship with the Redeemer. That love to God (what is meant here is not God’s love to men)Expand
Phys
  • Rev. D 82, 055022 (2010); Y. Zhang et al., Nucl. Phys. B802, 247
  • 2008
N
  • Cim. 14
  • 1937
Nuovo Cimento 14
  • 171
  • 1937
Phys
  • Rev. D 82, 113015
  • 2010
SINDRUM II Coll.
  • Eur. Phys. J. C
  • 2006
SINDRUM II Collaboration)
  • Eur. Phys. J. C 47,
  • 2006
CUORE Collaboration)
  • Nucl. Instrum. Methods Phys. Res.,
  • 2004
JHEP 9906
  • 022
  • 1999
SINDRUM Collaboration)
  • Nucl. Phys. B299,
  • 1988
...
1
2
...