A team of physicists at the University of Cambridge has unveiled a breakthrough in quantum sensing by demonstrating the use ...

In a new paper, physicists led by Christian Roos from the Department of Experimental Physics at the ... as well as determine the distance between the quantum sensors." Beyond that, the method ...

According to Maria Spiropulu, the Shang-Yi Ch’en Professor of Physics at Caltech ... these are essentially “4D sensors” because they combine spatial and time resolution, eliminating ...

Quantum physics has allowed for the creation of sensors far surpassing the precision ... Metrological institutions around the world administer our time, using atomic clocks based on the natural ...

A diamond-based quantum sensor has been used to measure magnetic signals from the heart of a living animal for the first time. It is a step towards being able to use quantum devices in ordinary ...

Physicists have transferred time and frequency information over a distance of more than 100 km in free space ... It also has applications for basic physics studies such as searching for dark matter, ...

They used the sensors to detect charged particles for the first time, an ability that is not needed for quantum networks or astronomy applications but is essential for particle physics experiments.

STMicroelectronics has created a time-of-flight distance sensor for industrial use. VL53L4ED works over -40 to +105°C and in high ambient light, and provides “provides distance measurement to objects ...

"I expect that space-based atom interferometry will lead to exciting new discoveries and fantastic quantum technologies impacting everyday life, and will transport us into a quantum future.

This light bounces off anything or anyone in front of the camera and back into the sensor. The length of time the light takes to bounce back is measured and that translates to distance information ...