Scientific Departments
Energy & photon sciences.
- Center for Functional Nanomaterials
- Condensed Matter Physics & Materials Science
- National Synchrotron Light Source II
- Sustainable Energy Technologies
Environment, Biology, Nuclear Science & Nonproliferation
- Environmental and Climate Sciences Department
- Nuclear Science and Technology
- Nonproliferation and National Security
Nuclear & Particle Physics
- Collider-Accelerator
- Instrumentation
- Superconducting Magnet
- RIKEN BNL Research Center
Computational Sciences
- Computer Science and Mathematics
- BNL Scientific Data and Computing Center
- Center for Data-Driven Discovery
- Computational Science Laboratory
Support Orgs
- Department Codes
- Interdisciplinary Science
Environment, Biology, Nuclear Science & Nonproliferation
- Environmental and Climate Sciences
- Scientific Data and Computing Center
Nuclear & Particle Physics
Electron-ion collider, advanced technology research office.
- Accelerator Test Facility
Support Orgs | Dept. Codes
- Our Science
- Departments
- Partner With Us
- Nobel Connections
Nobel Prize in Physics
Leon Lederman, Melvin Schwartz and Jack Steinberger received the 1988 Physics prize for their 1962 discovery of the muon-neutrino. At the time, only the electron-neutrino was known. Using Brookhaven's Alternating Gradient Synchrotron, they detected a new type of the ghostlike particles that pass through everything.
Discovery of the Muon Neutrino
The 1988 Nobel Prize in physics was awarded to a trio of researchers for their 1962 discovery of the muon-neutrino, based on work conducted at Brookhaven. Leon Lederman, Melvin Schwartz and Jack Steinberger, at the time all of Columbia University, made their discovery at the brand-new Alternating Gradient Synchrotron (AGS). At the time, only the electron-neutrino was known, and the scientists wondered if they could find more types of these ghostlike particles that pass through everything. The AGS, then the most powerful accelerator in the world, was capable of producing the beam needed.
The experiment used a beam of the AGS's energetic protons to produce a shower of pi mesons, which traveled 70 feet toward a 5,000-ton steel wall made of old battleship plates. On the way, they decayed into muons and neutrinos, but only the latter particles could pass through the wall into a neon-filled detector called a spark chamber. There, the impact of neutrinos on aluminum plates produced muon spark trails that could be detected and photographed -- proving the existence of muon-neutrinos.
The experiment's use of the first-ever neutrino beam paved the way for scientists to use these particles in research at the AGS and around the world.
Melvin Schwartz was a former Brookhaven Associate Director for High Energy and Nuclear Physics.
Melvin Schwartz standing next to spark chamber.
Brookhaven National Laboratory
PO Box 5000 Upton, NY 11973-5000 (631) 344-8000
- Visiting the Lab
- Staff Directory
- Guest Center
- Partnerships
- For Vendors
- Public Events
- Inclusion & Diversity
- Technology Licensing
- Stakeholder Relations
- Students & Educators
- Sustainability
- Privacy and security notice
Brookhaven Science Associates
Brookhaven Science Associates manages and operates Brookhaven National Laboratory on behalf of the U.S. Department of Energy's Office of Science. BSA is a partnership between Battelle and The Research Foundation for the State University of New York on behalf of Stony Brook University. | More