Explore how quantum sensors are revolutionizing scientific measurement. Learn about superposition, entanglement, and high-precision data acquisition.

Quantum sensors are transforming how we measure and navigate, offering levels of precision far beyond classical systems. By exploiting atomic superposition, cold atom interferometers, and diamond NV ...

A sensitive matter-wave interferometer measuring moiré fringes offers force sensitivity comparable to quantum interference ...

What’s the sensing aspect of quantum technology, and what potential it promises within the quantum computing domain? How can engineers create production-ready quantum sensing products? Where do ...

Researchers in Germany have developed a special technique that will allow better control over atomic reflections in quantum sensors. This new approach uses carefully engineered light pulses as atomic ...

US Customs and Border Protection is paying General Dynamics to create prototype “quantum sensors,” to be used with an AI database to detect fentanyl and other narcotics.

Levitating sensors are moving from science-fiction imagery to practical laboratory tools, promising a new generation of instruments that can feel forces so faint they border on the gravitational pull ...

The qubit state decays toward the "north pole" of the sphere due to decoherence. Using the study's coherence-stabilized sensing protocol, the researchers temporarily counteracted the decay, leading to ...

Heteroepitaxial growth technology has made it possible to create larger diamond substrates, opening new opportunities for industrial-scale production of diamond quantum sensors. A research team has ...

Japanese researchers are pushing quantum technology to the point where it can register unimaginably small disturbances, edging closer to instruments that could follow the subtle fingerprints of dark ...