Welcome!
We are a theory group investigating magnetic, phononic, and quantum hybrid systems, with a focus on the interplay between their topological properties, dissipation, and quantum many-body dynamics. A significant part of our current research lies at the intersection between condensed matter physics, quantum optics and quantum information science. Our approach involves analytical and numerical methods and frequent collaborations with experimental groups.
- Quantum many-body dynamics in hybrid solid-state systems
- Dissipation-based approaches to quantum information science
- Non-Hermitian topological phenomena
- Chiral phonons in quantum materials and biological systems
- Spin-dependent phenomena in condensed matter systems
News
A solid-state platform for cooperative quantum phenomena at UC, Riverside
I gave a colloquium titled “A solid-state platform for cooperative quantum phenomena" at UC, Riverside. Thank you Igor for the invitation!
A solid-state platform for cooperative quantum phenomena at CUNY
I gave a colloquium titled “A solid-state platform for cooperative quantum phenomena" at CUNY. Thank you So for the invitation!
The Non-Hermitian Skin Effect in Magnetic Systems
I gave a talk on "“The Non-Hermitian Skin Effect in Magnetic Systems" at the Latin American Workshop on Magnetism, Magnetic Materials & their Applications in Puerto Varas, Chile
A Solid-State Platform for Cooperative Quantum Phenomena
I gave a talk titled "A Solid-State Platform for Cooperative Quantum Phenomena" at the Quantum Vacuum in Materials International Workshop at Rice University.
The Non-Hermitian Skin Effect in Magnetic Systems
I gave a talk on "The Non-Hermitian Skin Effect in Magnetic Systems" at the workshop on Non-Hermitian Topology: from Classical Optics to Quantum Matter in Dresden, Germany.
Charge Defects and Phonon Hall effects in Ionic Crystals
7/2023: I gave a talk on "Charge Defects and Phonon Hall effects in Ionic Crystals" at CECAM Workshop: Chiral Phonons in Quantum Materials in Lugano, Switzerland.
