lntegrated Mechanics for Modular Quantum Reconfigurable Circuits (IMMQUIRE)

Basic data for this project

Description

Quantum technologies have the potential to solve current communications, computation and sensing problems. As regards all proposed platforms, the challenge lies in distributing entanglement among a large number of qubits. Although spin qubits interfaced via photonic integrated circuits (PICs) constitute a promising basis for a platform, variations in nanofabrication hinder its scalability. The EU-funded IMMQUIRE project aims to compensate for spin-qubit and PIC fabrication variations by developing a modular on-chip platform equipped with mechanical reconfiguration. To do this, it will make use of high-quality diamond spin qubits, aluminium nitride PICs and microelectromechanical systems as the enabling technologies. The project will make unprecedented scalability possible in the nanofabrication process, enabling experiments that bring us closer to the promises of quantum technologies.