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New findings from the LHC study limits on potential new particles.
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A fresh approach to understanding the universe's expansion without dark energy.
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New models propose solutions to dark matter's mysteries and challenges.
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CP violation offers insights into the matter-antimatter imbalance in the universe.
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Research focuses on scalar bosons and their potential role in understanding new forces.
David Cyncynates, Olivier Simon
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Exploring the potential of a new dark matter candidate within particle physics.
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Researchers study how sound travels in extremely dense neutron stars.
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Investigating cold quark matter and its implications for neutron stars.
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Research on dielectrons reveals key insights into matter behavior in extreme conditions.
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This research sheds light on how partons behave in polarized nucleons.
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Examining the electromagnetic characteristics of quark-gluon plasma in extreme conditions.
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Exploring how gravitational waves relate to dark matter in the early universe.
Parsa Ghorbani
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Advanced Python code facilitates the study of transversity PDFs in particle physics.
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Research explores dark matter, phase transitions, and gravitational waves in the universe.
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Examining charm quark effects in B-meson decay processes for better physics insights.
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Scientists aim to find dark matter using muon interactions at CERN.
Gordan Krnjaic, Duncan Rocha, Isaac R. Wang
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Investigating particle behavior to uncover CP violation effects in the universe.
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Researchers investigate rare particle interactions to uncover potential new physics.
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Examining how magnetic fields developed in the early universe.
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Exploring the impact of tunneling and Casimir effect on scalar fields in confined spaces.
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Machine learning is transforming how we study hadronization in high-energy physics.
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Researchers study superheavy dark matter and right-handed neutrinos to explain cosmic mysteries.
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Exploring pion condensation and its implications for unique astronomical objects.
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Research reveals magnetic fields significantly alter QCD's topological features across temperatures.
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Examining Inert Higgs Doublet Models and Two Higgs Doublet Models in particle physics.
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Researching charm quarks and their roles in particle interactions at EIC facilities.
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Research examines if a fundamental constant changes over time using quasars.
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A concise overview of semileptonic decays and their significance in particle interactions.
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A method to simplify complex calculations in quantum field theory.
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Neutrinos play a crucial role in shaping our understanding of the universe.
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