Research topics
- Ultracold Quantum Gases
Studying atoms cooled to near absolute zero to explore exotic states of matter like Bose-Einstein condensates and degenerate Fermi gases. - Few- and Many-Particle Quantum Systems
Investigating how small groups of atoms behave under quantum rules, and how adding more particles reveals complex collective behavior. - Quantum Simulations with Optical Lattices
Using laser-created “crystal-like” structures to simulate and study complex quantum systems that are otherwise hard to model. - Quantum Sensing and Metrology
Developing ultra-precise measurement tools that use quantum entanglement to outperform classical sensors—useful in fields like gravitational wave detection. - Quantum Chaos and Nonlinear Dynamics
Exploring how quantum systems can show chaotic behavior, helping bridge classical and quantum physics and understand complex dynamics. - Quantum Networking and Entangled Photons
Creating and manipulating entangled light particles for secure communication and quantum computing applications. - Spin-Orbit Coupling and Synthetic Gauge Fields
Engineering artificial magnetic fields in ultracold atoms to mimic exotic quantum materials and study new physical effects. - Quantum Hydrodynamics and Turbulence
Investigating fluid-like behavior in quantum systems, including solitons and turbulence in Bose-Einstein condensates. - Quantum Systems in Microgravity
Conducting experiments in low-gravity environments to study quantum behavior without Earth’s gravitational interference—relevant for space-based quantum technologies.