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Lecture
Quantum Noise Measurements
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Related lectures (32)
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Qubits: Tensor Products and Entangled States
Explains tensor products and entangled states in quantum mechanics, focusing on pairs of qubits and their mathematical representations.
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.
Quantum Optomechanics: Standard Quantum Limit
Explores the Standard Quantum Limit in optomechanical displacement measurements and strategies to overcome it.
Quantum Optics: Basics and Applications
Covers the quantization of the electromagnetic field, measuring quantum states of light, and the historical development of quantum optics.
Quantum Qubits: Understanding the Basics
Covers the basics of quantum qubits, including abstract qubits, states, measurement, and evolution in quantum computation.
Quantum Couplers: Hamiltonians and Coupling Mechanisms
Covers quantum couplers, focusing on Hamiltonians, coupling mechanisms, and their applications in quantum computing.
Quantum Entanglement
Explores quantum entanglement, Bell inequalities, and self-testing in quantum systems.
Superconducting Qubits: Circuit QED Technology
Explores superconducting qubits and circuit quantum electrodynamics technology, discussing relaxation, dephasing, environmental noise, and material defects.
Optomechanical Systems: Quantum Measurement and Control
Delves into early quantum-optomechanics, experimental platforms, and hybrid optomechanical systems, exploring quantum measurement and control.
Coupling Capacitive: Two Qubits Interaction
Covers the capacitive coupling of two qubits and its implications in quantum mechanics.
