Neutrinos are sometimes called “ghost particles,” because they are nearly weightless, rarely interact with any other matter, ...

A unique dataset of Type Ia Supernovae being released today could change how cosmologists measure the expansion history of the Universe.

The research paper reports a breakthrough that will enable gravitational-wave detectors to reach extreme laser powers. It ...

A unique dataset of Type Ia supernovae being released today could change how cosmologists measure the expansion history of ...

A study reveals that in the microscopic realm of atoms and subatomic particles the equations describing their behavior remain ...

Captain America’s star-spangled shield can stand up against the universe’s most powerful forces all thanks to vibranium. This ...

Researchers have discovered that superconducting nanowire photon detectors (SNSPDs), originally designed for detecting photons, can also accurately detect high-energy protons. This unexpected finding ...

Astrophysicists have unearthed a surprising diversity in the ways in which white dwarf stars explode in deep space after ...

The international KM3NeT collaboration, with the participation of the University of Granada, publishes the detection of a neutrino of unknown origin with a record energy of approximately 220 PeV, ...

In the quantum realm, the past, present, and future blur into a boundless structure. But consciousness may operate on a plane ...

Researchers at the U.S. Department of Energy’s (DOE) Argonne National Laboratory have discovered a highly sensitive sensor ...

If scientists confirm an anisotropic expansion, it would challenge the assumption that the universe has no preferred directions.