Publications
- Interdisciplinary work at the interface between photonics, quantum optics, quantum information processing, condensed matter physics, and quantum electronics, with particular emphasis on superconducting qubits, dissipative open quantum systems, optomechanics, quantum hybrid systems, and ultrastrong coupling cavity QED.
- Superconducting qubits for quantum information
- Optomechanics
- Quantum electro-mechanical systems (e.g., beams, cantilevers), quantum thermodynamics, and cooling quantum systems
- Landau-Zener transitions; Landau-Zener- Stückelberg-Majorana interferometry; Adiabatic quantum computing, etc.
- AI meets Quantum Physics: Machine Learning and Artificial Neural Networks applied to Quantum Physics
- Ultra-strong coupling regime in cavity quantum electrodynamics
- Casimir effect
- Majorana physics
- Topological physics
- Non-Hermitian physics
- Parity-time-symmetric systems
- Polaritons
- Photon blockade and phonon blockade
- Non-reciprocity
- Graphene, quantum dots, Majorana fermions, Weyl semimetals, etc.
- Leggett-Garg inequalities, Quantum Steering
- Quantum Cat states
- Quantum Tomography
- Quantum Error correction
- Quantum Jumps
- Quantum Toolbox in Phyton (QuTiP)
- Plasmonics, Surface Waves, Metamaterials, Left-handed Materials
- Optics
- Electron Vortex Beams
- Collective Transport:
- Superconducting Networks, Josephson junction Arrays, Electron Motion in Magnetic Fields, Path-integrals, Quantum Interference
- Controlling Quantum Noise in Condensed Matter: Squeezed Phonons, quantum control and quantum noise suppression
- Phonons: Phonon Lasers, Phonon Diodes, Phonon Cavities, Phonon Blockade, Acoustic Interference, and Phonon Localization
- Biophysics and Biology
- Energy-related research (solar energy, light-to-electricity conversion, photosynthesis, proton pumps, etc.)
