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Lecture
Quantum Representation
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Related lectures (30)
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Quantum Computation: Mechanisms and Advantages of Restricted Models
Covers the mechanisms behind quantum computation and explores the advantages of restricted computational models.
Classical and Quantum Mechanics: Foundations and Applications
Explores classical and quantum mechanics, covering observables, momentum, Hamiltonian, and the Schrödinger equation, as well as quantum chemistry and the Schrödinger's cat experiment.
Qubits: Tensor Products and Entangled States
Explains tensor products and entangled states in quantum mechanics, focusing on pairs of qubits and their mathematical representations.
Quantum Principles
Covers the fundamental principles of quantum computing and unitary evolution in quantum systems.
Quantum Measurements
Explores projective quantum measurements, system-meter formulation, observable outcomes, and coupling between systems and meters.
Quantum Information Theory: Basics and Quantum States
Covers the basics of quantum information theory, focusing on classical and quantum states, evolutions, and measurements.
The Density Matrix Formalism
Explores the density matrix formalism in quantum mechanics, including entanglement and properties of the density matrix.
Quantum Computing Basics
Covers the basics of quantum computing, focusing on superconducting qubits, scaling challenges, and potential applications.
Quantum Reservoir Engineering
Explores Quantum Reservoir Engineering, energy relaxation, and quantum phasing in systems, discussing equations of motion and spectral densities.
Heisenberg Picture: Time Evolution and Observables
Explores the Heisenberg picture, emphasizing time evolution and observables in quantum mechanics.
