Grunnleggende konsepter
Algebraic approach for exact model reduction in quantum dynamics.
Sammendrag
The article introduces an algebraic approach to reduce the dimension of quantum filters while maintaining correct distributions. It focuses on system-theoretic observability analysis and testing on various quantum systems. The content is structured as follows:
- Introduction to quantum stochastic dynamical models.
- Methods to reduce computational burden for filtering equations.
- System-theoretic route for constructing stochastic quantum models.
- Utilization of algebraic quantum probability tools.
- Comparison between reduced models with and without conditioning.
- Introduction of a class of models covering practical stochastic dynamics.
- Definition of conditional evolutions in discrete-time quantum dynamics.
- Observability and linear reduction analysis.
- Reduction of measurements and dynamics separately.
- Applications in measured quantum walks and Ising spin chains.