High Energy Physics - PhenomenologyThe Secret Life of NeutrinosDiscover the importance and mysteries of neutrinos in our universe.
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Examining how cosmic rays impact dark matter detection methods.
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Scientists are racing to determine the mass of neutrinos and its universal implications.
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Research on gravitational waves sheds light on dark matter and matter-antimatter balance.
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This article explores the 3-3-1 model's potential in particle physics.
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Examining neutron stars for insights into fundamental physics and baryon number violation.
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Examining the 2HDM and its implications for fundamental particle interactions.
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Investigating the connection between gamma rays, black holes, and dark matter in our galaxy.
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Scientists study microstructure black holes to understand dark matter's role in the universe.
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A new experiment aims to find mysterious axion-like particles and shed light on dark matter.
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Scientists investigate FIPs to shed light on dark matter and particle physics.
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Exploring how black holes from the early Universe may shape matter and antimatter balance.
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This study explores hadron interactions and their significance in extreme environments.
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Examining how boundaries affect the chiral magnetic effect in confined geometries.
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Upcoming experiments will enhance helium-4 beam polarization insights in particle physics.
― 4 min read
Study on primordial black holes and axion miniclusters reveals important clustering dynamics.
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Muon colliders offer high-energy insights into particle interactions and the muon-Higgs coupling.
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Introducing FMNLO, a new method for accurate jet fragmentation calculations.
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Research is shifting focus toward lighter dark matter and complex gravity interactions.
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Investigating the relationship between shockwaves and lasting impacts in gravitational waves.
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New method enhances feature estimation from astronomical images, improving accuracy and uncertainty measures.
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Research explores heavy neutrinos' role in the universe's matter-antimatter imbalance.
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Exploring the link between primordial black holes and Type Ia supernova events.
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An overview of how inflation, baryogenesis, and leptogenesis shape our understanding of the early Universe.
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Research reveals the role of QED in proton spin contributions from partons.
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Investigating gluon behavior through deep inelastic scattering and saturation models.
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This study explores cosmic birefringence and its connection to gravitational lensing effects.
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This study reveals how particle decays can hint at new physics.
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A look into winos and their role in dark matter detection.
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This study highlights the role of ML in understanding Higgs boson decay patterns.
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Research reveals how nuclear structure affects outcomes in heavy-ion collisions.
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Research offers fresh perspectives on the QCD axion and its implications.
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Exploring a theory that addresses neutrino mass and dark matter.
― 6 min read
Exploring the link between neutron stars, gravitational waves, and nuclear properties.
― 5 min read
Explore the role of axions in solving the strong CP problem in physics.
― 4 min read
Examining how heavy quarks transform into hadrons during particle collisions.
― 4 min read
A look into the unique properties and production of doubly heavy baryons in particle physics.
― 5 min read
A look at the extraordinary neutron star PSR J0952-0607 and its implications.
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A look into how saturation affects particle interactions in extreme conditions.
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Investigating heavy quark interactions at extreme temperatures and their implications for particle physics.
― 5 min read