The topological engine monitor (TEM) uses persistent homology diagrams and Wasserstein/Bottleneck distances to define a robust quality index that detects control degradation in quantum heat engines and outperforms statistical baselines under localized noise.
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Topological Engine Monitor: Persistent Homology-Based Fault Detection in Finite-Time Quantum Engines
The topological engine monitor (TEM) uses persistent homology diagrams and Wasserstein/Bottleneck distances to define a robust quality index that detects control degradation in quantum heat engines and outperforms statistical baselines under localized noise.