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PHYS-314: Quantum physics II
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Lectures in this course (79)
Transition Probabilities in Perturbation Theory
Explores transition probabilities in first-order perturbation theory with time-dependent perturbations and disturbance theory.
Systems of Multiple Particles and Hartree-Fock Method
Explores systems of multiple particles and the Hartree-Fock method in quantum mechanics.
Quantum Mechanics: Hartree-Fock Method
Covers the Hartree-Fock method and second quantization in quantum mechanics for systems with multiple particles.
Density Operators in Quantum Physics II
Explores density operators in quantum physics, emphasizing their role in describing quantum system states.
Quantum Mechanics: Second Quantization
Explores second quantization in quantum mechanics, emphasizing creation and annihilation operators in Hilbert and Fock spaces.
Quantum Physics II: Operator or Density Matrix
Explores operator, density matrix, subsystems, states, and system evolution in quantum physics.
Quantum Mechanics: Second Quantification
Delves into second quantification in quantum mechanics and its applications in particle physics.
Quantum Physics II: Operator or Density Matrix
Explores operator or matrix density in quantum physics, discussing system evolution and interactions with the environment.
Bose-Hubbard model and density matrix formalism
Covers the Bose-Hubbard model and density matrix formalism.
Density Operator: Matrix to the System State
Explores density operator matrix transformation in quantum physics and the implications of measuring the system, leading to state collapse.
Quantum Density Matrix Formalism
Covers the formalism of quantum density matrices and their applications in quantum mechanics.
Density Operator: Quantum Physics II
Covers the concept of matrix to the density operator in quantum physics.
Matrix to Density Operator
Explains the transformation from a matrix to the density operator in quantum physics.
Introduction to Quantum Information, Communication, and Computation
Covers the basics of quantum information, communication, and computation, including quantum bits and algorithms.
Quantum Information Elements: Basics and Applications
Covers the basics of quantum information elements and their practical applications in quantum information processing.
Introduction to Quantum Information, Communication, and Computing
Explores quantum teleportation, computation, and communication, focusing on qubits and quantum algorithms.
Introduction to Quantum Information, Communication, and Computing
Covers the fundamentals of quantum information, communication, and computing, including qubits and quantum algorithms.
Quantum Information Elements
Covers the fundamentals of quantum information, including quantum simulation and logic gates.
Quantum Information: Elements of Quantum Information
Explores quantum information, logic gates, and the Deutsch algorithm in quantum software engineering.
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