Quantum sensing is a rapidly expanding research field that finds one of its applications in fundamental physics, as the detection of light Dark Matter. Qubit-based superconducting devices have already been successfully applied in detecting few-GHz single photons via Quantum Non-Demolition measurements. The optimization and new design schemes of circuits embedding qubits will yield notable enhancements in sensitivity and suppression of dark count rates in experiments involving high-precision microwave photon detection, particularly in the search for Axions and Dark Photons. The Qub-It collaboration is developing a novel microwave photon detection scheme based on two qubits coupled to the same resonator, both in 2D and 3D formats.
Novel two-qubit microwave photon detector for fundamental physics applications / Rettaroli, Alessio; Banchi, Leonardo; Corti, Hervè Atsè; D'Elia, Alessandro; Gatti, Claudio; Giachero, Andrea; Labranca, Danilo; Moretti, Roberto; Nucciotti, Angelo; Komnang, Alex Stephane Piedjou; Tocci, Simone. - In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH. SECTION A, ACCELERATORS, SPECTROMETERS, DETECTORS AND ASSOCIATED EQUIPMENT. - ISSN 0168-9002. - ELETTRONICO. - 1070:(2025), pp. 170010.0-170010.0. [10.1016/j.nima.2024.170010]
Novel two-qubit microwave photon detector for fundamental physics applications
Banchi, Leonardo;Corti, Hervè Atsè;
2025
Abstract
Quantum sensing is a rapidly expanding research field that finds one of its applications in fundamental physics, as the detection of light Dark Matter. Qubit-based superconducting devices have already been successfully applied in detecting few-GHz single photons via Quantum Non-Demolition measurements. The optimization and new design schemes of circuits embedding qubits will yield notable enhancements in sensitivity and suppression of dark count rates in experiments involving high-precision microwave photon detection, particularly in the search for Axions and Dark Photons. The Qub-It collaboration is developing a novel microwave photon detection scheme based on two qubits coupled to the same resonator, both in 2D and 3D formats.
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