07 Jun 2022
Photonic method heralds applications like monitoring greenhouse gases and cancer detection.
The team says that quantum sensing is poised to revolutionise today's sensors, significantly boosting the performance they can achieve. More precise, faster, and reliable measurements of physical quantities can have a transformative effect on every area of science and technology, including our daily lives.
However, the majority of quantum sensing schemes rely on special entangled or squeezed states of light or matter that are hard to generate and detect. This is a major obstacle to harnessing the full power of quantum-limited sensors and deploying them in real-world scenarios.
In a paper published (yesterday) in Physical Review Letters, a team of physicists at the Universities of Bristol, Bath and Warwick (all in the UK) have shown it is possible to perform high precision measurements of important physical properties without the need for sophisticated quantum states of light and detection schemes.
The key to this breakthrough is the use of ring resonators – tiny racetrack structures that guide light in a loop and maximize its interaction with the sample under study. Importantly, ring resonators can be mass manufactured using the same processes as the chips in our computers and smartphones.
Alex Belsley, a Quantum Engineering Technology Labs PhD student and lead author of the work, commented, “We are one step closer to all integrated photonic sensors operating at the limits of detection imposed by quantum mechanics.”
He added, “Employing this technology to sense absorption or refractive index changes can be used to identify and characterise a wide range of materials and biochemical samples, with topical applications from monitoring greenhouse gases to cancer detection.”
Associate Professor Jonathan Matthews, co-Director of QETLabs and co-author of the work, commented, “We are really excited by the opportunities this result enables: we now know how to use mass manufacturable processes to engineer chip scale photonic sensors that operate at the quantum limit.”
About Bristol’s QET Labs
QET Labs was launched in 2015, with the mission to take quantum science discoveries out of the lab and engineer them into technologies for the benefit of society.
This includes novel routes to quantum computing hardware, quantum communications, enhanced sensing & imaging and new platforms to investigate fundamental quantum physics. QET Labs brings together over £28 million worth of activity and comprises over 100 academics, staff, and students in the Schools of Physics and Electrical and Electronic Engineering.
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