Open Quantum Systems
Oct 5, 2020
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1 min read
Real quantum systems inevitably interact with their environment, leading to decoherence and dissipation. My research investigates the fundamental aspects of open quantum system dynamics, including non-Markovian effects, quantum control in noisy environments, and the interplay between coherence and dissipation.
Key Research Areas
- Non-Markovian quantum dynamics and memory effects
- Quantum control in the presence of noise
- Collision models for open quantum systems
- Quantum thermodynamics and information flow
Selected Publications
- Noisy quantum metrology enhanced by continuous nondemolition measurement
- Scalable Method for Eliminating Residual ZZ Interaction
- Effective description of the short-time dynamics in open quantum systems
- Continuous-time quantum walks on dynamical percolation graphs
- Symmetry properties of the large deviation function
