Featured Research Articles
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Quantifying Nuclear Structure Uncertainties in Dark Matter Direct Detection Experiments
Dark matter is one of the least understood phenomena in modern physics. Current and future dark matter direct detection experiments seek interaction events, though so far no positive dark matter particle interactions have been discovered.
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Probing Non-Annihilating Dark Matter with Celestial Objects
Despite the prodigious abundance of dark matter, its microscopic identity is yet to be revealed, and is considered to be a major mystery in modern day science.
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What can we learn from 1018 Muons? Probing Flavor Violation in the Laboratory
Flavor violation among the neutrinos, discovered in solar and atmospheric neutrino experiments, suggests—and indeed requires—flavor violation among the neutrino’s charged partners, the electron, muon, and tau.
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Signatures of the quark-hadron phase transition at neutrino detectors
Prepared by Anna M. Suliga Core-collapse supernovae are one of the most complex phenomena and most efficient neutrino factories in the Universe. Not only are they one of the sites […]
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Role of non-gaussian quantum fluctuations in neutrino entanglement
In extreme astrophysical settings like core-collapse supernovae, neutrinos are vital in driving the explosion mechanism and setting the conditions for element synthesis.