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Introduces the OSSCAR framework for interactive quantum mechanics simulations, showcasing current use cases and specific examples like Monte Carlo simulations and 2D diffusion.
Explores the connection between physical theories and empirical data, contrasting standard quantum mechanics with Newtonian Mechanics' explicit ontology of particles in space.
Explores the concept of time in quantum mechanics, the Heisenberg uncertainty relation, time-resolved photoemission, attosecond time scales, and spin-orbit interaction spectroscopy.
Explores the quantum-mechanical nature of superconductivity, covering basic quantum mechanics, Cooper pair formation, and the energy gap in superconductors.