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Lecture
Quantum Theory: Canonical Approach
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Related lectures (31)
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Linear Operators: Basis Transformation and Eigenvalues
Explores basis transformation, eigenvalues, and linear operators in inner product spaces, emphasizing their significance in Quantum Mechanics.
Bounded Operators: Theory and Applications
Covers bounded operators between normed vector spaces, emphasizing the importance of continuity and exploring applications like the Fourier transform.
Postulates of Quantum Mechanics
Explains the postulates of Quantum Mechanics, focusing on self-adjoint operators and mathematical notation.
Quantum Mechanics: Mathematical Framework
Introduces the need for a mathematical framework to describe linear operators on infinite-dimensional Hilbert spaces in quantum mechanics.
Quantum Mechanics: Postulates and Observables
Explains the postulates of quantum mechanics and the representation of observables by operators.
Quantum Physics II: Operator or Density Matrix
Explores operator, density matrix, subsystems, states, and system evolution in quantum physics.
Scaling & Renormalization in Statistical Mechanics
Explores scaling and renormalization in statistical mechanics, emphasizing critical points and invariant properties.
Ewald Summation: Long-Range Interaction and Self-Interaction Correction
Explains Ewald summation, self-interaction correction, and short-range interaction calculations.
Quantum Mechanics Basics
Covers the basics of quantum mechanics, focusing on Hamiltonian operator and Schrödinger equations.
Quantum Entanglement
Delves into quantum entanglement, exploring entangled particles' state, evolution, and measurement.
