Quantum magnonics with synthetic antiferromagnets
- Datum: 06.02.2025
- Uhrzeit: 14:00 - 15:00
- Vortragende(r): R. A. Duine
- Utrecht University, Netherlands
- Ort: Max Planck Institute for Solid State Research
- Raum: 4D2
- Gastgeber: Dep. Quantum Many-Body Theory

Synthetic antiferromagnets are magnetic multilayers consisting of two or more ferromagnetic layers that are coupled antiferromagnetically. They play an important role in spintronic devices, e.g., as field sensors, and as synthetic materials for fundamental explorations. In this talk, I will highlight the use of synthetic antiferromagnets for quantum information science with spin waves, i.e., for quantum magnonics. Examples that are discussed are unidirectionally-coupled magnetic layers that give rise to magnon quantum amplification, and new ways to entangle magnons between two ferromagnetic layers. Both these examples rely on the possibility to engineer both the interactions between the layers, and the interactions of the magnetic layers with the environment. This tunability highlights the potential of synthetic antiferromagnets for quantum magnonics.