MicroBooNE's results show no evidence for sterile neutrinos, strengthening support for the standard three-flavor neutrino model and adding complexity to earlier unexplained anomalies.

Stanford physicists have engineered a sophisticated optical cavity capable of harvesting single photons from individual atoms.

For quantum computers to function, they must be kept at extremely low temperatures. However, today’s cooling systems also generate noise that interferes with the fragile quantum information they are ...

In a recent study in Nature, a research team from Columbia University and the University of Texas at Austin has made a ...

Astronomers at The University of Manchester have played a leading role in the discovery of a new cosmic object that is much ...

A collaborative effort from TU Wien, alongside teams from the United States and Switzerland, has demonstrated that artificial intelligence can significantly advance progress in integrating quantum ...

Theoretical advancements in quantum metrology by Dr. Mackoit-Sinkeviciene are shaping the future of quantum technologies and ...

The Big Bang's early moments were crucial for nucleosynthesis, leading to the formation of light elements and influencing the universe's structure.

Researchers at Osaka Metropolitan University have successfully developed a novel type of Kondo necklace utilizing a ...

With a focus on scalability, Paul Terry shares how Photonic's quantum architecture addresses industry challenges and paves ...

A new £20 million space innovation hub has officially opened in Buckinghamshire, supported by UK Space Agency funding, providing cutting-edge facilities to help space businesses grow and creating up ...

Scientists have created 3D printed surfaces featuring intricate textures that can be used to bounce unwanted gas particles away from quantum sensors, allowing useful particles like atoms to be ...