Cold atom experiments are among the most powerful and precise ways of investigating and measuring the universe and exploring the quantum world. By trapping atoms and exploiting their quantum ...

Researchers have built a small-scale computer that runs on thermal noise, the random electrical fluctuations that conventional chip designers spend billions trying to suppress. The device, called a ...

Physicists and chemists at Heidelberg University have realized a photonic microchip that is driven by light just as easily as ...

Using the Perlmutter supercomputer, researchers achieved a record-scale simulation of a quantum microchip to refine and validate next-generation quantum hardware designs. Researchers from (Berkeley ...

Applied Materials is transforming the foundation of AI chip manufacturing by using advanced physics and material science to make wafers more efficient and powerful. With over 22,000 patents and strong ...

For experiments that require ultra-precise measurements and control over atoms -- think two-photon atomic clocks, cold-atom interferometer sensors and quantum gates -- lasers are the technology of ...

By harnessing two natural timescales in resonator arrays, researchers created photonic chips that reliably produce multiple harmonics without active compensation. For decades, scientists and engineers ...

The semiconductor chips driving modern-day computer processors are covered in billions of individual transistors, each of ...

Donald Figer, director of the Center for Detectors, delivered the keynote talk on “Sensors and Detectors for Physical and Chemical Sciences” at the CHIPS for Science conference at the University of ...