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Neutrinos are among the most mysterious particles, but they are difficult to study – they can pass through lead nearly 6 trillion miles thick without leaving a trace. SLAC researchers want to answer fundamental questions about neutrinos, including whether a new type of neutrino could be linked to dark matter and whether neutrinos explain why there is more matter than antimatter in the universe.

Related links:
Physics of the Universe
Elementary particle Physics

This illustration shows the layout of an application-specific integrated circuit, or ASIC, at an imaginary art exhibition.

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A new breed of experiments seeks sources of cosmic rays and other astrophysics phenomena.

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SLAC is ramping up its efforts to understand neutrinos – elusive fundamental particles whose properties may help researchers solve a number of cosmic mysteries.

The EXO-200 underground detector.
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VIA Symmetry Magazine

Hitting the Neutrino Floor

Dark matter experiments are becoming so sensitive, even the ghostliest of particles will soon get in the way.

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VIA Symmetry Magazine

All About Supernovae

Exploding stars have an immense capacity to destroy—and create.

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Observations of this kind could lead scientists to the source of ultra-high-energy cosmic rays.

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When it comes to studying particles that zip through matter as though it weren’t even there, you use every method you can think of.

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VIA Symmetry Magazine

A Goldmine of Scientific Research

The underground home of the LUX dark matter experiment has a rich scientific history.

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VIA Symmetry Magazine

When Research Worlds Collide

Particle physicists and scientists from other disciplines are finding ways to help one another answer critical questions.

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The 30-ton MicroBooNE detector, the cornerstone of Fermilab’s short-baseline neutrino program, will see neutrinos this year.

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If it exists, a type of decay called neutrinoless double-beta decay will show that neutrinos are their own antiparticles and can help scientists determine...

Photo – SLAC engineers weld the xenon vessel shut
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The Particle Physics Project Prioritization Panel’s report, released today, recommends a strategic path forward for US particle physics.

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The Particle Physics Project Prioritization Panel’s recommendations will set the course for the future of particle physics in the United States.

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