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Related lectures (32)
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Quantum Information: Polarisation and Degrees of Freedom
Explores quantum polarisation, elasticity, and spatial structure of wave functions.
Quantum Bits: Axioms and Examples
Explores quantum bits, axioms, examples, Shor algorithm, measurements, Hilbert space, and dynamics.
Photonic Links for Rydberg Atom Arrays: Quantum Networking
Covers advancements in photonic links for Rydberg atom arrays in quantum networking.
The Density Operator Formalism
Explains the density operator formalism and observables in quantum systems.
Computational Physics: Understanding and Optimization
Explores the optimization of computational physics calculations and the relationship between physicists and computers.
Theory of Open Quantum Systems
Covers the theory of open quantum systems and the dynamics of isolated systems.
Quantum Entropy: Markov Chains and Bell States
Explores quantum entropy in Markov chains and Bell states, emphasizing entanglement.
Quantum Information Theory: Basics and Quantum States
Covers the basics of quantum information theory, focusing on classical and quantum states, evolutions, and measurements.
Superconducting Quantum Bits
Covers superconductors, Cooper pairs, resonator quality factors, and quantum bits in electronics.
Von Neumann Entropy: Mixed State and Density Matrix
Explores Von Neumann Entropy in mixed states and density matrices, including quantum bits and entangled systems.
Quantum Information Principles
Covers the mathematical principles of quantum physics, including Hilbert spaces and quantum bits.
Stochastic numerical methods for many-body quantum systems
Explores stochastic methods for quantum systems, including exact diagonalization, variational methods, neural networks, and machine learning.
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