Astronomers observe Type II supernova SN 2024bch behaving differently, with energy from Bowen fluorescence rather than ejecta interaction, challenging models of stellar death and high-energy neutrino ...
In a Physical Review Letters study, the HOLMES collaboration has achieved the most stringent upper bound on the effective ...
New research reveals how ghost particles may break the universe’s symmetry, offering clues to why matter—and life—exist at all.
Neutrinos are among the universe’s most abundant yet least understood particles. They possess tiny masses and almost never ...
In a rare global collaboration, scientists from Japan and the United States joined forces to explore one of the universe’s ...
Researchers have moved one step closer to solving one of science’s greatest mysteries—why the universe is filled with matter instead of nothing. Scientists at Indiana University have made a major ...
Japanese physicists have revived Kelvin’s old idea of cosmic knots, showing how these tangled fields might explain why matter ...
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High-Energy 'Ghost Particles' That Was Detected In Milky Way By IceCube Neutrino Observatory
The IceCube Neutrino Observatory has detected a "high-energy neutrino emission from within the Milky Way," according to AAAS.
A Michigan State University researcher co-led a joint analysis between two major neutrino experiments, bringing scientists closer to understanding the ...
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