Quantum Machines Seminar by Silvia Viola-Kusminskiy on Cavity optomagnonics: Quantum optics with magnons
Quantum Machines Unit - Zoom Seminar open to OIST
Cavity optomagnonics: Quantum optics with magnons
In the last five years, a new field has emerged at the intersection between Condensed Matter and Quantum Optics, denominated “Quantum Magnonics”. This field strives to control the elementary excitations of magnetic materials, denominated magnons, to the level of the single quanta, and to interface them coherently to other elementary excitations such as photons or phonons. The recent developments in this field, with proof of concept experiments such as a single-magnon detector, have opened the door for hybrid quantum systems based on magnetic materials. This can allow us to explore magnetism in new ways and regimes, has the potential of unraveling quantum phenomena at unprecedented scales, and could lead to breakthroughs for quantum technologies. A predominant role in these developments is played by cavity optomagnonic systems, where an electromagnetic cavity, either in the optical or microwave regime, is used to enhance and control the interaction between photons and magnons. In this talk, I will introduce the field and present some theoretical results from our group which aim to push the boundaries of the current state of the art.
Silvia Viola Kusminskiy is group leader at the Max Planck Institute for the Science of Light in Erlangen and she obtained her PhD in Physics from the Boston University for her studies on quantum liquids in correlated systems. Her work focuses on theoretical condensed matter, quantum optics, optomechanics and optomagnonics as well as graphene physics and low dimensional systems.