Having good neighbors can be very valuable—even in the atomic world. A team of Amsterdam physicists was able to determine an ...

DOE has renewed funding for the Quantum Science Center, led by Oak Ridge National Laboratory, through 2030. National labs, ...

A team of scientists has used a quantum processor to create an exotic new state of matter, capturing the strange motion of quantum particles in real time.

This week’s edition of Agency Advice gives marketing leaders an open microphone to say what they really think (and feel) ...

Advanced quantum spectroscopy at RIKEN reveals insights into antiproton properties, potentially challenging CPT invariance and our understanding of physics.

Building a working quantum internet would require overcoming a host of technical challenges, but researchers who have built ...

Quantum Computing has minimal revenue but a large cash position, providing a long operational runway. Read why QUBT stock is ...

The Department of Energy’s Oak Ridge National Laboratory, NVIDIA, and HPE will seek to open new insights into quantum ...

Qubits differ from classical bits, which are coded as only 0 or 1. A qubit can be a combination of both 0 and 1 simultaneously. One way to think of it is as a coin spinning between a 0 and a 1 axis.

Physicists finally identified why some quantum materials seemingly lose their electrical conductivity for no reason.

The poet Blake wrote that you can see a world in a grain of sand. But even better, you can see a universe in an atom!

Every year in October our UCSB Physics faculty present an explanation of the Nobel Prize in Physics for that year.