A Model of Leptons. Steven Weinberg. Physical Review Letters. Vol. 19 No. 21 (1967): 1264–1266.
Elementary Particle Physics: Relativistic Groups and Analyticity. Eighth Nobel Symposium. Abdus Salam. Nils Svartholm, ed. Stockholm: Almquvist and Wiksell (1968): 367.
2014. Takaaki Kajita and Arthur B. McDonald for the discovery of neutrino oscillations, which shows that neutrinos have mass.
2002. Raymond Davis Jr., Masatoshi Koshiba, and Riccardo Giacconi for pioneering contributions to astrophysics. Davis and Koshiba for the detection of cosmic neutrinos. Giacconi for pioneering contributions to astrophysics that led to the discovery of cosmic x-ray sources.
1995.
Martin Perl and Frederick Reines for pioneering experimental contributions to lepton physics. Perl for the discovery of the tau lepton. Reines for the detection of the tau neutrino.
1988. Leon Lederman, Melvin Schwartz, and Jack Steinberger
for the neutrino beam method and the demonstration of the doublet structure of the leptons through the discovery of the muon neutrino
Supernova neutrinos detected in the Mont Blanc experiment. M. Aglietta, G. Badino, G. Bologna, C. Castagnoli, A. Castellina. Proceedings of the ESO Workshop on the SN 1987A. Garching, Federal Republic of Germany (1987): 206–216.
Higgs Boson. Sixty Symbols. YouTube (2011). This video features Ed Copeland, Roger Bowley and Tony Padilla from the University of Nottingham.
Neutrinos fater than light. Sixty Symbols. YouTube (2011). Discussing recent results suggesting neutrinos may be traveling "faster than light".
Neutrinos slower than light. Sixty Symbols. YouTube (2012). A slightly less exciting sequel to our video "Neutrinos faster than light". We happened to be at CERN, in Geneva, when the story broke.
Neutrino Nobel Prize. Sixty Symbols. YouTube (2015). The 2015 Nobel Prize in Physics goes to Takaaki Kajita and Arthur B. McDonald for showing that Neutrinos have mass.