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Quantum simulation with ultracold atoms provides a powerful and highly controllable platform for exploring complex quantum many-body phenomena. By engineering synthetic lattice geometries, tunable interactions, and tailored external fields, ultracold atomic systems enable the experimental realization of paradigmatic models in condensed matter physics, high-energy physics, and quantum information science. This approach offers unprecedented insight into strongly correlated phases, quantum phase transitions, and non-equilibrium dynamics.
Key topics that are investigated in our group:
Dipolar gases in optical lattices
Polaron physics
Quantum magnetism
Many-body localization and thermalization
Transport in low-dimensional systems
Anderson localization
Superfluidity in layered systems
For more information please visit the Quantum Simulation Group Page
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