BNL Home
  • RHIC

    Brookhaven physicists are using detectors at the Relativistic Heavy Ion Collider to explore how the matter that makes up atomic nuclei behaved just after the Big Bang.

  • ATLAS

    Brookhaven physicists and engineers are collaborators in the ATLAS experiment at CERN's Large Hadron Collider.

  • DUNE

    After a rush to start up the first large prototype detector, stellar results show the technology for the Deep Underground Neutrino Experiment is ready to shine. Photo by CERN

  • Cosmology

    In the LSST and BOSS experiments, Brookhaven physicists seek to measure and constrain the properties of dark matter, dark energy and the standard cosmological model.

Nuclear Physics

PHENIX

Responsibile for the operation and  physics exploitation of the PHENIX experiment at RHIC.

STAR

Responsibile for the operation and  physics exploitation of the STAR experiment at RHIC.

RHIC Spin

Leads, supports, and provides for the common requirements of the RHIC spin program, particularly for polarimetry.

RIKEN BNL Research Center

Conducts quantum chromodynamics and proton spin structure research.

Nuclear Theory

The nuclear theory group conducts research in all areas of QCD, including structure of hadrons and nuclei at high energies, the QCD phase diagram and the properties of quark-gluon matter.

RHIC Computing Facility

Provides computing services for experiments at RHIC, and the Large Synoptic Survey Telescope project.

High-Energy Physics

Cosmology & Astrophysics

Solving problems in observational cosmology: how to measure and constrain properties of dark matter, dark energy and the standard cosmological model.

Electronic Detector

Studies very rare processes at the Intensity Frontier.

Omega

Group members are collaborators on the LHC ATLAS experiment.

Nuclear and Particle Physics Software

Participates in experiments across BNL's nuclear and particle physics programs, providing software and expertise with a particular emphasis on common software solutions.

High-Energy Theory

Focuses on providing theoretical foundation for the search for physics beyond the standard model, including lattice QCD calculations of key quantities required for this quest.

ATLAS Computing Facility

Provides computing services for U.S. ATLAS.

High-Energy Physics

Belle II

An experiment at Japan’s SuperKEKB particle accelerator recording decay products from electron-positron collisisons. Brookhaven hosts a copy of the raw data and an archive of the detector’s conditions at the time of collision.

Dark Energy Survey

Seeks to probe the origin of the accelerating universe and uncover the nature of dark energy by measuring the 14-billion-year history of cosmic expansion.

Large Synoptic Survey Telescope

A 3.2 gigapixel camera mounted in a  ground-based telescope designed to produce the widest, densest, and most complete images of our universe ever captured.

Deep Underground Neutrino Experiment

An international collaboration working to precisely measure neutrino oscillations.

ATLAS

An experiment at CERN's Large Hadron Collider designed to detect particles created by proton-proton collisions.

Daya Bay Neutrino Experiment

An international collaboration studying the subtle transformations of neutrinos.

Short-Baseline Neutrino Program

Measures low energy neutrino cross sections and investigates low energy excess events observed by the MiniBooNE experiment.

Muon g-2

A high precision measurement of the muon's g-2 value. A deviation between theory and observed value will suggest the existence of new particles.

PROSPECT

Precision measurement of reactor antineutrino spectrum in searching for new oscillation signatures of neutrinos.

Nuclear Physics

PHENIX

An experiment at the Relativistic Heavy Ion Collider designed to explore quark gluon plasma.

STAR

An experiment at the Relativistic Heavy Ion Collider designed to explore quark gluon plasma.

Electron Ion Collider (Future)

Plans for the world's first electron-nucleus collider, also known as eRHIC, call for the addition of a 5 to 10 GeV electron ring inside the RHIC tunnel.

The Physics Department is part of Brookhaven's Nuclear & Particle Physics Directorate.

Seminars & Colloquia

  1. MAY

    12

    Tuesday

    Physics Colloquium

    "TBA"

    Presented by Tae Min Hong, University of Pittsburgh

    3:30 pm, Large Seminar Room, Bldg. 510

    Tuesday, May 12, 2020, 3:30 pm

    Hosted by: George Redlinger

  1. MAY

    12

    Tuesday

    Nuclear Physics Seminar

    "Unitarity in meson spectroscopy: implications for experiment, lattice, and models"

    Presented by George Rupp, Instituto Superior Técnico

    11 am, Small Seminar Room, Bldg. 510

    Tuesday, May 12, 2020, 11:00 am

    Hosted by: Jin Huang

    The most fundamental cornerstone of the PDG tables is the uniqueness of S-matrix pole positions of unstable particles, as a consequence of quantum-field-theory principles. Therefore, the unitarity property of the S-matrix should ideally be respected in whatever description of meson resonances in experiment, lattice-QCD simulations, and quark models. However, mesons are still often analyzed using non-unitary Breit-Wigner parametrizations and treated as manifest bound states on the lattice or in models. In the present talk I shall demonstrate the huge discrepancies that may result from such naive approaches, with potentially dramatic consequences for meson spectroscopy and the inferred confining potential.

  1. APR

    9

    Thursday

    Particle Physics Seminar

    "Maximizing the potential of neutrino experiments"

    Presented by Philip Rodrigues, University of Oxford

    3 pm, Webcast

    Thursday, April 9, 2020, 3:00 pm

    Hosted by: Hanyu Wei

    Present and future neutrino experiments will search for CP violation in the lepton sector, detect neutrinos from a galactic supernova, and search for evidence of sterile neutrinos. I will discuss two strands of work aimed at maximizing the success of these experiments: on DUNE, developing the far detector trigger system is vital to achieving the physics goals of the experiment; while on the SBN project, neutrino cross section uncertainties are a major systematic in the sterile neutrino oscillation analysis.

  2. MAY

    21

    Thursday

    Particle Physics Seminar

    "TBA"

    3 pm, Small Seminar Room, Bldg. 510

    Thursday, May 21, 2020, 3:00 pm