Vahid Azimi Mousolou
Researcher at Department of Physics and Astronomy; Materials Theory
- Visiting address:
- Ångströmlaboratoriet, Lägerhyddsvägen 1
- Postal address:
- Box 516
751 20 UPPSALA
Researcher at Department of Physics and Astronomy; Materials Theory; Quantum Matter Theory
- Visiting address:
- Ångströmlaboratoriet, Lägerhyddsvägen 1
- Postal address:
- Box 516
751 20 UPPSALA
More information is available to staff who log in.
Keywords
- quantum computing
- quantum information
- quantum machine learning
- quantum magnonics
Biography
Vahid received his PhD in quantum information theory at Linnaeus University in 2013. Since 2014 he is an assistant professor at the University of Isfahan. He joined the research group on dynamic phenomena of magnetic materials at the Division of Materials Theory in the Department of Physics and Astronomy at Uppsala University in 2019.
Research
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, including different forms of spin qubits, spintronic devices incorporating magnonic and skyrmionic systems, superconducting transmon qubits, photons, and phonons.
In addition, my teaching portfolio aligns closely with my research interests. Among the courses I have developed and/or taught are:
- Quantum Computing (financed by CIM)
- Principles of Quantum Computers and Quantum Programming
- Quantum Machine Learning
- Quantum Information
- Second Generation Quantum Technology
These courses are designed to complement and expand upon my research expertise.
Publications
Recent publications
- Quantum spin systems (2024)
- Transmon probe for quantum characteristics of magnons in antiferromagnets (2023)
- Tunable phonon-driven magnon-magnon entanglement at room temperature (2023)
- Temperature-anisotropy conjugate magnon squeezing in antiferromagnets (2023)
- Entanglement duality in spin-spin interactions (2022)
All publications
Articles
- Quantum spin systems (2024)
- Transmon probe for quantum characteristics of magnons in antiferromagnets (2023)
- Tunable phonon-driven magnon-magnon entanglement at room temperature (2023)
- Temperature-anisotropy conjugate magnon squeezing in antiferromagnets (2023)
- Entanglement duality in spin-spin interactions (2022)
- Magnon-magnon entanglement and its quantification via a microwave cavity (2021)
- Entanglement fidelity and measure of entanglement (2020)
- Hierarchy of magnon mode entanglement in antiferromagnets (2020)