The classical scientific theories by which we understand the world around us do not hold good at the subatomic level. There, ...

"Dark photon" theory says light's interference patterns may emerge from quantum particles, not waves, upending centuries of ...

Quantum physics reshapes our view of time, not as a steady flow, but as unfolding possibilities shaped by probability—and ...

Light's interference patterns may emerge from quantum particles, not waves, challenging traditional wave-particle thinking.

A particle slammed into the water near the still-growing KM3NeT ... As Yuri Kovalev from the Max Planck Institute for Radio Astronomy put it, “By adding observations from other telescopes, we seek to ...

I’m standing in front of the country’s most high-powered particle accelerator, capable of harnessing 21 million volts to fire a beam of particles at 20 per cent the speed of light. To ...

“When I first tried looking at this event, my program crashed,” says Coyle, a physicist at the Centre for Particle Physics of Marseille, France. KM3NeT had detected a neutrino from space that ...

Max Planck did not mean to overthrow all human notions of order in the universe; he simply wanted to understand how light bulbs work. At the dawn of the 20th century, there was no formula that fully ...

Researchers from Federal University of São Carlos, ETH Zurich and the Max Planck Institute of Quantum ... which-path observation (of a particle through the double slit) can be so gentle as ...

These high-energy collisions, conducted inside massive particle accelerators, help physicists study matter, energy, space, and time. As new accelerators promise even more powerful and chaotic ...

Particle pollution, also known as particulate matter or PM, is a main component of wildfire smoke, according to the United States Environmental Protection Agency. These particles can be made up of ...

Researchers have developed a novel high-energy particle detection instrumentation approach that leverages the power of quantum sensors -- devices capable of precisely detecting single particles.