Quantum enhANched phoTonic Integrated sensors For metrologY

Cel

Over the years sensors expanded their field of use from scientific exploration to consumer electronics, and their market evolved accordingly. Quantum technologies are expected to further push sensor’s performances, unlocking even more application domains, exploiting non-classical correlation of light and matter to extract the relevant information beyond the limit dictated by classical noise processes, improving performances such as sensitivity, specificity and uncertainty. The ability to produce, control and measure quantum states in transportable devices is the key to extend the sensors’ operating environment, lifetime, power consumption and costs. QUANTIFY fits perfectly this vision and the goal of Demonstrating quantum sensing beyond classical capabilities for real-world applications, in the Strategic Research Agenda of the Quantum Flagship Program. QUANTIFY objective consists in bringing photonic quantum enhanced sensors at the next level of integration developing the essential building blocks and novel quantum-enhanced techniques for future chip scale optical clocks, optically pumped magnetometers and optomechanical temperature sensors. QUANTIFY leverages different photonic platforms combined by a novel hybrid integration technique to bring the key optical and optomechanical functionalities on a single chip. To increase the clock and magnetometer performances, we introduce a photonic integrated squeezed light source, also becoming an important step for realizing a universal quantum computer based on photonics. Finally, we demonstrate a novel absolute temperature sensor with an extended detection range, from cryogenic to room temperature leveraging a nanoscale optomechanical approach coupling photonic and phononic degrees of freedom.
All the free developed sensors will be assessed using metrological protocols and national primary standards in National metrological laboratories, to foster their feature exploitation in real application for end-users.

Dziedzina nauki

• engineering and technologyelectrical engineering, electronic engineering, information engineeringelectronic engineeringcomputer hardwarequantum computers
• engineering and technologyelectrical engineering, electronic engineering, information engineeringelectronic engineeringsensors
• natural sciencesphysical sciencesquantum physicsquantum optics

Słowa kluczowe

• Quantum enhanced sensors
• Metrology
• Photonic integration
• Squeezed light
• Key enabling technologies
• Nanofabrication
• Traceability
• Calibration
• Quantum maesurements
• Chip scale devices

Program(-y)

• HORIZON.2.4 - Digital, Industry and Space Main Programme
• HORIZON.2.4.7 - Advanced Computing and Big Data

Temat(-y)

• HORIZON-CL4-2023-DIGITAL-EMERGING-01-50 - Next generation quantum sensing and metrology technologies (RIA)

Zaproszenie do składania wniosków

HORIZON-CL4-2023-DIGITAL-EMERGING-01-CNECT

System finansowania

Koordynator

Uczestnicy (11)

Partnerzy (1)