High Energy Physics

High Energy Physics

Science of High Energy Physics

Impact of High Energy Physics

Funding Opportunities

High Energy Physics (HEP) explores what the world is made of and how it works at the smallest and largest scales, seeking new discoveries from the tiniest particles to the outer reaches of space. This quest inspires young minds, trains an expert workforce, and drives innovation that improves the nation’s health, wealth, and security.

Our research is inspired by some of the biggest questions about our universe. What is it made of? What forces govern it? How did become the way it is today? Finding these answers requires the combined efforts some of the largest scientific collaborations in the world, using some of the most sensitive detectors in the world, at some of the largest scientific machines in the world.

We support U.S. researchers that play leading roles in these international efforts and world-leading facilities at our National Laboratories that make this science possible. We also develop new accelerator, detector, and computational tools to open new doors to discovery science, and through Accelerator Stewardship, work to make transformational accelerator technology widely available to science and industry.

Learn more about the High Energy Physics mission and how we support it here.

HEP Subprograms

Energy Frontier - Researchers at the Energy Frontier use the worldâ€™s largest and highest energy particle accelerator to recreate the universe as it was a billionth of a second after the big bang

Energy Frontier

Researchers at the Energy Frontier use the world’s largest and highest energy particle accelerator to recreate the universe as it was a billionth of a second after the Big Bang.

Intensity Frontier - Researchers at the Intensity Frontier investigate some of the rarest particle interactions in nature and subtle effects that require large data sets to observe and measure.

Intensity Frontier

Researchers at the Intensity Frontier investigate some of the rarest particle interactions in nature and subtle effects that require large data sets to observe and measure.

Cosmic Frontier - Researchers at the Cosmic Frontier use naturally occurring cosmic particles and phenomena to reveal the nature of dark matter, cosmic acceleration, and more.

Cosmic Frontier

Researchers at the Cosmic Frontier use naturally occurring cosmic particles and phenomena to reveal the nature of dark matter, cosmic acceleration, and more.

Theoretical and Computational Physics - Theoretical and computational physics provide the vision and the framework for extending our knowledge of particles and the universe.

Theoretical, Computational, and Interdisciplinary Physics

Theoretical, computational, and interdisciplinary physics provide the vision and the framework for extending our knowledge of particles and the universe.

Advanced Technology R&D - Cutting-edge research in the physics of particle accelerators, particle beams, and particle detection enables scientists to stay on the threshold of discovery.

Advanced Technology R&D

Cutting-edge research in the physics of particle accelerators, particle beams, and particle detection enables scientists to stay on the threshold of discovery.

Accelerator Stewardship - Supporting use-inspired basic research in accelerator science and technology to make particle accelerator technology widely available to science and industry.

Accelerator Stewardship

Supporting use-inspired basic research in accelerator science and technology to make particle accelerator technology widely available to science and industry.

HEP Science Highlights

Laser-Driven “Chirp” Powers High-Resolution Materials Imaging

Harnessing the intensity of a terahertz laser pulse brings the resolution of electron scattering closer to the scale of electron and proton motion.

Survey Delivers on Dark Energy with Multiple Probes

The Dark Energy Survey has delivered dark energy constraints combining information from four of its primary cosmological probes for the first time.

Superconducting Films for Particle Acceleration

Researchers demonstrated record accelerating cavity performance using a technique that could lead to significant cost savings.

Parceling Particle Beams

Beam chopper cuts accelerator-generated ion beams under highly demanding conditions.

An Interaction of Slipping Beams

Successful models of the fraught dynamics of two particle beams in close contact lead to smoother sailing in an area of particle acceleration.

Extracting Signs of the Elusive Neutrino

Scientists use software to "develop" images that trace neutrinos' interactions in a bath of cold liquid argon.

MicroBooNE, Machine Learning, and Liquid Argon

The MicroBooNE experiment demonstrates the use of machine learning to interpret images made by a liquid-argon particle detector.

CSI: Neutrinos Cast No Shadows

New crime scene investigation technique offers a hard look at the traces that particles leave before fleeing the scene.

ArgoNeuT Hits a Home Run with Measurements of Neutrinos in Liquid Argon

Scientists developed a method to better distinguish the tracks that particles leave behind in liquid argon.

Cryocooler Cools an Accelerator Cavity

All SRF particle accelerators to-date use liquid helium to maintain the extremely cold temperatures necessary for sustaining superconductivity.

HEP Program News

DOE to Provide $100 Million for High Energy Physics Research

Today, the U.S. Department of Energy (DOE) announced a plan to provide $100 million over the next four years for new research in high energy physics.

DOE to Provide $6 Million for U.S.-Japan Cooperative Research in High Energy Physics

Plan will provide funding for collaborative research in high energy physics that involves substantial collaboration with Japanese investigators.

Department of Energy Announces $12 Million for Particle Accelerators for Science & Society

Projects to Benefit Medicine, Industrial Applications, and Security

DESI Opens Its 5,000 Eyes to Capture the Colors of the Cosmos

With installation near completion, new sky-surveying instrument begins final testing.

Department of Energy Announces $21.4 Million for Quantum Information Science Research

Projects linked to both particle physics and fusion energy.

Department of Energy Announces $10 Million for Particle Accelerator Research

Projects to Benefit Medicine, Industrial Applications, and Security

What if Dark Matter is Lighter? Report Calls for Small Experiments to Broaden the Hunt

Berkeley Lab and UC Berkeley scientists are already pursuing new experiments to probe for low-mass dark matter particles.

Engineering the World’s Largest Digital Camera

Building the Large Synoptic Survey Telescope also means solving extraordinary technological challenges.

Department of Energy Announces $75 Million for High Energy Physics Research

Projects span colliders, neutrinos, dark matter, and dark energy.

HEP Research Resources

High Energy Physics Advisory Panel

Astronomy and Astrophysics Advisory Committee

Funding Opportunities

Building for Discovery: Strategic Plan for U.S. Particle Physics in the Global Context

HEP Reports

Contact Information

High Energy Physics
U.S. Department of Energy
SC-25/Germantown Building
1000 Independence Ave., SW
Washington, DC 20585
P: (301) 903-3624
F: (301) 903-2597
E: Email Us

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