On February 13, 2023, the ARCA detector, part of the neutrino telescope KM3NeT located off the southeast coast of Sicily, recorded a neutrino with an estimated energy of approximately 220 quadrillion ...

WHYY thanks our sponsors — become a WHYY sponsor “Mysterium” is based on the concept of the Cosmic Microwave Background, or residual radiation leftover from the Big Bang that now permeates every inch ...

This implies a history where everything was closer together. 2) The properties of the cosmic microwave background radiation (CMB). This shows that the universe went through a transition from an ...

In the vast, dark expanse of the early Universe, a cosmic behemoth has been revealed. Using a network of powerful telescopes, ...

A new study introduces the Community Land Active Passive Microwave Radiative Transfer Modeling platform (CLAP)—a unified multi-frequency microwave scattering and emission model designed to ...

In future, it might also be used to shield astronauts from the hazard of deadly cosmic radiation on long space voyages. One of the major hazards of space travel is prolonged exposure to radiation.

"Formally, this light is called the Cosmic Microwave Background (CMB), but we sometimes just call it the universe's baby picture because it's a snapshot of when it was around 380,000 years old." ...

A deep-sea detector glimpsed a particle with 220 million billion electron volts of energy — around 20 times as energetic as any neutrino seen before.

The "needle in the haystack" discovery of a powerful explosion from a mysterious unknown object outside our galaxy has ...

Its movement in relation to the Cosmic Microwave Background is influenced by this. To validate these effects, more research is necessary. Despite its immense size, Quipu is not going to last forever.

The rocks above SNOLAB block the cosmic rays: It’s like turning off the blender. But other “noisy appliances” are on, even underground. They produce radiation, vibration, light and heat. SNOLAB’s ...