Scientists have identified a new class of entangled states and developed two methods to create them, which can filter out noise and improve the precision of quantum sensors.

University of Colorado Boulder / JILA, NIST, Niels Bohr Institute, Joint Quantum Institute, Indian Institute of Technology Madras

Who

Ana Maria Rey, James K. Thompson, Raphael Kaubruegger, and colleagues from JILA, NIST, Niels Bohr Institute, Joint Quantum Institute, and Indian Institute of Technology Madras

What

When

Thu, 11 Jun 2026 22:30:04 GMT · 3h 12m ago

Where

University of Colorado Boulder / JILA, NIST, Niels Bohr Institute, Joint Quantum Institute, Indian Institute of Technology Madras ·

Why

Physical constraints prevent further improvements in quantum sensor accuracy, as packing more atoms leads to collisions and noise from environmental disturbances like vibrations, electromagnetic fields, or temperature changes.

The Frontline Impact

How this affects you

This breakthrough could lead to next-generation quantum sensors with unprecedented precision, potentially enabling applications such as guiding navigation without GPS or detecting hidden underground resources like minerals, oil, or gas.

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Currently Reading3h 12m ago
Scientists have identified a new class of entangled states and developed two methods to create them, which can filter out noise and improve the precision of quantum sensors.
Technology3h 12m ago
Scientists have identified a new class of entangled state and developed two methods to create these states inside an optical cavity to improve quantum sensor performance.
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Verified Sources & Citations

Phys.org
https://phys.org/news/2026-06-kind-entanglement-quantum-sensors-tune.html
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