We analyze the spontaneous emission dynamics of a quantum emitter near a topological insulator Bi2Te3 nanosphere, using a combination of electromagnetic calculations and quantum dynamics simulations. For the study of the quantum system dynamics, besides the excited state population dynamics, different non-Markovianity measures are used. We also estimate the quantum speed limit in the system. For large free-space decay rates, the dynamics has strong non-Markovian features, which correlate directly with large values of non-Markovianity measures and possible significant quantum speedup of the dynamics. The dynamical features become gradually Markovian as the free-space decay times become long, while the corresponding non- Markovianity measures tend to zero and the quantum speedup diminishes.

Topics
Topological insulator, Computer simulation, Complex systems theory, Nanomaterials, Nanoparticle, Lasers, Population ecology, Markov processes
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