Spin Cavitronics IV - optomagnonics, cavity spintronics

This workshop is going to be the fourth in a series held previously at the Max-Planck Institute for the Science of Light, Erlangen 2017, as a SPICE workshop in Mainz 2018, and at the Cavendish Lab., Cambridge 2019 that started after the discovery of strong coupling between photons and magnons. This breakthrough elevated magnons to become alternatives to e.g. photons and phonons as conduits of quantum and classical information. Research on the interaction of photons and magnons is referred to as optomagnonics, cavity spintronics, and spin cavitronics, with increasing inclusiveness with related fields. This workshop series aims to provide a platform for new developments in the core issues of spin cavitronics. We invite the spintronics and magnetism community since the expertise in magnetic materials and devices is essential. The workshop will also provide interfaces to related fields such as optomechanics, atom optics, quantum optics, and quantum information with similar concepts, goals, and techniques.

Topics: Spintronics: Functional (ferri, antiferro, ferro, 2D, …) magnetic materials and devices Spin and magnon transport (DC, AC, noise, …) Non-linear and quantum magnonics Spins and magnets in microwave cavities: (Ultra) strong coupling Driven systems Complex system and magnon chemistry. Magnetooptics and optical control: Strong coupling in optical resonators THz magnonics and metamaterials Quantum effects in related fields (tutorials): Optomechanics, Josephson junctions, NV-Centers Semiconductor spintronics Photonics Phononics Quantum information