Vahid Azimi Mousolou

My research involves characterizing, modeling, simulating, and discovering optimal solid-state nanostructures for quantum information processing and quantum communication. Realizing and gaining a deeper understanding of non-classical correlations, particularly quantum entanglement and Bell-type non-locality, with a focus on many-particle solid-state systems, are key elements of my study. Developing error-resilient methods, including geometric and topological architectures for fault-tolerant quantum computation, is also a part of my research concerns. Recently, I have been intrigued by hybrid quantum-classical machine learning and optimization developments to explore key quantum properties in magnetic materials, which have significant implications in quantum technologies. Throughout my research, I have investigated various quantum platforms that serve as essential components in solid-state quantum computers. These include different forms of spin qubits, spintronic devices incorporating magnonic and skyrmionic systems, superconducting transmon qubits, photons and phonons.