Charging a Quantum Battery in a Non-Markovian Environment: A Collisional Model Approach

Explore the effects of non-Markovianity on charging open-system quantum batteries in this 43-minute lecture. Delve into a collisional model framework, examining how memory effects in the environment impact the dynamics of quantum batteries. Investigate the steady-state ergotropy behavior and the intricate relationship between information backflow and other dynamic parameters. Discover the maximum achievable ergotropy value and learn how non-Markovian environments enable near-maximum ergotropy generation across a broader parameter space. Analyze the role of non-Markovianity through measure evaluations for different subsystems, uncovering the connection between maximum ergotropy and minimal non-Markovianity in the battery subsystem. Gain insights into open quantum battery research, collision models, and measuring techniques for various system components.

Introduction
Welcome
Presentation
State of research
Open Quantum Battery
Model analysis
Collision model
Conditional model
Maximum value
Charging power
Measuring Mercury
Measuring Composite System
Measuring Battery System
Conclusion
Questions
Discussion