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Related lectures (13)
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Quantum Approximate Optimization Algorithm
Explores the Quantum Approximate Optimization Algorithm and its application in solving optimization problems efficiently using quantum adiabatic evolution.
Spin-Wave Computing: Philipp Pirro Lecture
Explores spin-wave computing, magnonic nanostructures, and wave-based computing applications, emphasizing low-power, nonlinear computing potential.
Photonics Quantization: Exploring Energy States in Different Dimensions
Discusses the quantization of photonic states in various dimensions and their implications for quantum science.
Quantum Systems: Functional Development
Discusses quantum systems, excited states, dissipation, and functional development in quantum chemistry.
Quantum and Nanocomputing
Covers standard transformations, entanglement, superpositions, and measurements in quantum computing.
Quantum Langevin Equations
Covers the derivation of quantum Langevin equations and input-output formalism in open quantum systems.
Theory of Open Quantum Systems
Covers trace-preserving maps, master equations, and Lindblad operators in the theory of open quantum systems.
Quantum and Nanocomputing
Explores quantum computing fundamentals, including qubits, gates, and entanglement, as well as the impact of quantum computing on society.
Quantum Channels: Lecture 08 - Part 2
Covers the evolution of quantum systems and the dynamics of open quantum systems.
Quantum Simulation: Concepts and Methods
Explores quantum simulation using programmable quantum systems to simulate model systems and discusses the challenges and methods involved.
Josephson Coupling Energy
Covers Josephson coupling energy in superconducting systems and the behavior of Josephson junctions as inductors.
Quantum Information and Computing
Covers quantum information, computing, algorithms, error correction, and challenges in the field.
Spontaneous Emission in Quantum Wells
Explores spontaneous emission in quantum wells, electric field effects on optical transitions, and the quantum confined Stark effect.
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