COSINE-100 has successfully reduced its detection threshold, improving dark matter research.
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Researchers target the gauge-Higgs coupling to deepen particle physics insights.
― 5 min read
A study of how tiny electron clusters interact under various conditions.
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Researchers use lattice QCD to uncover nucleon properties and their fundamental interactions.
― 4 min read
Explore the contrast between black holes and naked singularities in our universe.
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B mesons hold keys to fundamental forces and physics beyond the Standard Model.
― 4 min read
This research investigates how mesons change in nuclear matter during proton collisions.
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Researchers use levitated ferromagnets to seek evidence of ultralight dark matter.
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Scientists investigate axions as a possible form of dark matter.
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A study on quark-gluon plasma and how magnetic fields affect quarkonium behavior.
― 6 min read
Scientists develop improved techniques for analyzing dark matter signals.
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SuperKEKB enhances systems to reduce risks of Sudden Beam Loss in particle experiments.
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Exploration of flavor symmetries and their impact on lepton interactions.
― 7 min read
This article investigates how particles behave in the Solar Basin over time.
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Researchers investigate muon anomalies to advance particle physics theories.
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Investigating neutrinos from high-energy collisions offers new insights into particle physics.
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Examining photon interactions to improve particle collision models at colliders.
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Research focuses on scalar bosons and their potential role in understanding new forces.
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Exploring the potential of a new dark matter candidate within particle physics.
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Research on dielectrons reveals key insights into matter behavior in extreme conditions.
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New findings reveal key insights into particle interactions through strong-phase differences.
― 3 min read
Researchers study iron oxide's structure changes under high pressure and temperature.
― 4 min read
Research investigates heavy Higgs bosons through high-energy proton collisions.
― 6 min read
Research reveals magnetic fields significantly alter QCD's topological features across temperatures.
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PandaX-4T experiment searches for axion-like particles and dark photons.
― 4 min read
Exploring common misunderstandings about Quantum Chromodynamics and its measurement.
― 5 min read
GRAND project focuses on detecting air showers from high-energy neutrinos using autonomous triggers.
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Scientists study unique singlet scalars and their interactions in particle physics.
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New experiments aim to capture elusive neutrinos for deeper insights.
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Researchers develop innovative methods to detect elusive high-energy neutrinos.
― 6 min read
Recent experiments detect solar neutrinos, advancing dark matter research.
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Researchers investigate elusive particles that may reveal new physics through neutrino interactions.
― 4 min read
Recent studies aim to detect axion-like particles related to dark matter.
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Tetraquarks, unique four-quark particles, reveal insights into particle interactions.
― 4 min read
New method uses AI to identify double hypernuclear events in nuclear emulsions.
― 4 min read
Scientists explore the potential of detecting higher frequency gravitational waves.
― 6 min read
Investigating particle jets reveals insights into quark-gluon plasma properties.
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A novel method enhances muon conversion searches using synchrotron radiation.
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Examining why matter dominates over antimatter through CP violation in baryons.
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EIC aims to deepen knowledge of matter's fundamental structure through advanced experiments.
― 5 min read