Computational Quantum Physics

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Related lectures (32)

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Quantum Mechanics Evolution

Explains the representation for evolution in quantum mechanics and the application of path integrals.

Quantum Mechanics: Path Integral Formulation

Covers the path integral formulation of Quantum Mechanics, emphasizing its advantages and connection with statistical mechanics.

Eigenvalue Problems: Methods and Applications

Explores eigenvalue problems, iterative methods, and their applications in quantum physics and network analysis.

Berni Alder Prize: Celebrating 50 Years of CECAM

Commemorates 50 years of CECAM and the Berni J. Alder CECAM Prize, covering milestones in computational methods, quantum mechanics, slip motion, and more.

Time-Independent Perturbation Theory: Degenerate Case

Explores time-independent perturbation theory in the degenerate case within quantum physics.

Eigenvalue Problems: Methods and Applications

Explores eigenvalue problems, iterative methods, convergence properties, and applications in computational physics.

Perturbation Theory: Time-Dependent Disturbance Theory

Explores time-dependent perturbations in quantum physics and their solutions under various disturbance scenarios.

Path Integral Methods: Convergence and Computational Techniques

Covers path integral methods, focusing on convergence and computational techniques for quantum systems.

Quantum Mechanics: Schrödinger Equation

Explores the Schrödinger equation in quantum mechanics, numerical methods, and properties of observables.

Quantum Mechanics: Composite Systems and Angular Momentum

Explores quantum mechanics concepts applied to composite systems and angular momentum, emphasizing the importance of understanding the basics.