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Many-body localisation under the microscope
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Related lectures (31)
The Deutsch and Deutsch-Jozsa Algorithms
Covers the Deutsch and Deutsch-Jozsa algorithms in quantum computing, explaining the principles behind them and their implications.
Quantum Entanglement: From Einstein to Bell
Delves into the journey from Einstein and Bell's debates to the practical applications of quantum entanglement, including quantum teleportation and key distribution.
Quantum Cryptography: Optical Qubits and Teleportation
Explores quantum cryptography, focusing on optical qubits, entanglement, and teleportation principles.
Quantum Information: Spin and Magnetic Moments
Explores the concept of spin in quantum information and its relation to magnetic moments and particle spins.
Entanglement: teleportation
Covers the concept of entanglement and the teleportation protocol for transferring quantum states using classical bits of information.
Quantum Natural Gradient: Optimization Methods in Quantum Computing
Explores Quantum Natural Gradient optimization in quantum computing and the importance of choosing the right ansatz.
Quantum Information: Fundamental Experiments
Explores fundamental quantum experiments, including Young's double-slit and photoelectric effect.
Quantum Information: Attacks and Cloning
Covers quantum information, focusing on attacks by Eve and the impossibility of perfectly copying quantum states.
Photonic Links for Rydberg Atom Arrays: Quantum Networking
Covers advancements in photonic links for Rydberg atom arrays in quantum networking.
Quantum Circuits: Gates and Teleportation
Covers quantum circuits, gates, qubits, teleportation, and quantum communication principles.
Quantum Key Distribution, Dense Coding, Teleportation
Covers QKD, Dense Coding, and Teleportation, explaining attacks, basis choices, and security tests.
Quantum Key Distribution: Security and Implementation
Explores Device Independent Quantum Key Distribution (DIQKD) principles, security proofs, and experimental demonstrations against quantum computer threats.
Quantum Entanglement: Bell Test Protocols and Results
Covers the implementation of a Bell test protocol using superconducting qubits to demonstrate quantum entanglement over a distance of 30 meters.
Quantum Entanglement
Explores quantum entanglement, Bell inequalities, and self-testing in quantum systems.
Quantum Information: Polarisation and Degrees of Freedom
Explores quantum polarisation, elasticity, and spatial structure of wave functions.
The Period Finding Algorithm
Explores the Quantum Phase Estimation method for finding the period of a function using an oracle.
Quantum Computing Basics
Covers the basics of quantum computing, focusing on superconducting qubits, scaling challenges, and potential applications.
Quantum Information: Basics and Applications
Covers quantum information basics, Toffoli gates, quantum parallelism, and Grover's algorithm for database search.
Quantum Information: Density Matrices
Explores density matrices, quantum states representation, and entropy in quantum information.
Hamiltonian of Heisenberg: Interaction and Energy Levels
Covers the Hamiltonian of Heisenberg and the interaction between classical magnetic moments.
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