In a new study published in Nature Physics, researchers have demonstrated that quantum light, particularly bright squeezed vacuum (BSV), can drive strong-field photoemission at metal needle tips.

Forward-looking: By demonstrating a chip that can produce multiple frequencies without adjustment, a Maryland research team has brought photonic integration closer to parity with the semiconductor ...

Designed to accelerate advances in medicine and other fields, the tech giant’s quantum algorithm runs 13,000 times as fast as software written for a traditional supercomputer. A quantum computer at ...

D-Wave and IonQ both generated multibagger gains over the past year. Both companies could grow rapidly as the quantum computing market expands. But one of these stocks looks less bubbly relative to ...

A Hiroshima University team has designed a feasible way to detect the Unruh effect, where acceleration turns quantum vacuum fluctuations into observable particles. By using superconducting Josephson ...

Researchers at North Carolina State University have unveiled Rainbow, a first-of-its-kind multi-robot self-driving laboratory that autonomously discovers high-performance quantum dots – semiconductor ...

A team of Johns Hopkins engineers has developed a new, more powerful method to observe molecular vibrations, an advance that could have far-reaching implications for early disease detection. The team, ...

IonQ and Quantum Computing Inc. are racing to develop tech that can overcome the challenges inherent in quantum machines. Quantum Computing Inc. employs photons as a means of building scalable quantum ...

This post may contain links from our sponsors and affiliates, and Flywheel Publishing may receive compensation for actions taken through them. There’s still plenty of room for growth as the AI race ...

Finally, we will get to see a test of the IVO quantum drive which is a propellentless drive. If it is successful in raising the orbit of the OTP-2 Rogue Space satellite (Norad tracking Satellite 63235 ...