Researchers at the Department of Energy's Oak Ridge National Laboratory are pioneering the design and synthesis of quantum ...

A Perspective by QST outlines a practical roadmap for “quantum life science,” spanning ultra‑sensitive diamond sensors in ...

This brief tutorial explains how the “Wiegand effect” can be used as a reliable, low-cost, energy-harvesting system to power ...

Researchers from the Optics Group at the Universitat Jaume I in Castellón have managed to correct in real time problems ...

The Honor Magic8 Pro continues the company's trend of pairing stunning screens with excellent cameras, but it still can't ...

Modern smartphones are packed with a wide range of sensors, and their magnetometer can successfully identify certain kinds of ...

SBQuantum's quantum diamond magnetometer, as explained by CEO David Roy-Guay, is set to transform navigation and Earth ...

Efficiency and power density are persistent challenges in high-current applications, particularly as systems become more ...

Magnets are more than just fun fridge decorations—they power essential parts of modern technology. In this video, you’ll learn how magnetic fields work and how magnets are used in motors, speakers, ...

Researchers at the University of Iowa and the University of Chicago have developed a framework that could yield more accurate readings of the inner workings of cells via quantum sensors. Denis Candido ...

Abstract: The GaN Hall sensors are the latest advancements in non-intrusive active monitoring, designed to be integrated on GaN power transistors to enable in-situ condition monitoring, hence boosting ...