NASA's ANITA experiment in Antarctica has detected puzzling upward radio signals that challenge our understanding of particle physics. These anomalies may hint at new cosmic phenomena or even exotic particles. What do they mean for science?
A groundbreaking experiment over Antarctica has detected strange signals that defy current particle physics understanding, sparking intrigue among scientists. The ANITA project aims to explore these anomalies and their implications for deep space research.
Researchers from the University of Pennsylvania have detected strange radio signals from beneath Antarctic ice using a cosmic particle detector. These signals challenge current physics understanding and may hold secrets about the universe.
In a groundbreaking discovery, Penn State scientists have detected strange radio pulses from beneath the Antarctic ice, challenging current particle physics and hinting at undiscovered particles or interactions.
A cosmic ray detector in Antarctica has recorded strange signals that defy current physics models, suggesting the presence of unknown particles. Researchers are baffled as they explore this anomaly's implications for our understanding of the universe.
A cosmic particle detector in Antarctica has emitted bizarre signals that defy current particle physics understanding, hinting at new types of particles or interactions, according to researchers.
In a groundbreaking study, scientists have halved the estimated mass of neutrinos, the universe's most abundant particles. This discovery could unravel mysteries of dark energy and the cosmos, marking a significant milestone in physics research.
Discover the groundbreaking detection of a record-breaking 220 PeV neutrino by the KM3NeT telescope, offering fresh insights into cosmic accelerators and paving the way for new discoveries in astrophysics.
Scientists have detected an extraordinary neutrino from deep space with an energy level far surpassing anything seen before. This groundbreaking discovery opens up a realm of possibilities in understanding cosmic phenomena.
The most energetic neutrino ever observed, detected by the KM3NeT telescope, opens new horizons in neutrino astronomy and sheds light on high-energy phenomena in the universe.