QCOMP – Quantum Sensors for Qubits and Quantum Materials

The goal of the project is to develop a tool for charac­ter­iz­ing novel quantum materi­als that are relevant for the devel­op­ment of quantum comput­ers. To access the quantum mechan­i­cal degrees of freedom of these materi­als, the sensor itself must possess suffi­ciently coher­ent quantum states and provide high spatial resolu­tion to resolve the atomic proper­ties of the compo­nents under inves­ti­ga­tion. Build­ing on a quantum sensor devel­oped by Qnami, the QCOMP project devel­ops a microscopy platform specif­i­cally designed for the charac­ter­i­za­tion of new quantum technol­ogy materials.

In addition, within the frame­work of QCOMP, quantum simula­tions and measure­ments are specif­i­cally employed by the consor­tium partners to charac­ter­ize novel quantum materi­als and make them acces­si­ble for future appli­ca­tions. The research objec­tive is to estab­lish a pathway for the ratio­nal design of novel 2D materi­als and compo­nents for quantum comput­ers by deter­min­ing and system­at­i­cally advanc­ing the key electri­cal and magnetic parame­ters of these materi­als from a measure­ment perspective.