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What drives superconductivity
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Related lectures (31)
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Zero resistance: Superconductivity basics
Introduces the basics of superconductivity, including zero resistance, magnetic field expulsion, and critical current concepts.
Quantum Mechanics: Maxwell Equations
Covers the application of Maxwell's equations in quantum mechanics.
Gauge Invariance: Electromagnetic Potentials
Explores gauge invariance, electromagnetic potentials, superfluid velocity, and superconductors' magnetic field expulsion.
Superconducting Quantum Bits
Covers superconductors, Cooper pairs, resonator quality factors, and quantum bits in electronics.
Aharonov-Bohm Effect: Magnetic Monopoles
Explores the Aharonov-Bohm effect and magnetic monopoles in quantum mechanics.
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 Metrology: Fundamentals and Applications
Explores quantum metrology fundamentals, applications, and technologies like quantum ghost imaging, computing, and key distribution.
Quantum Harmonic Oscillator: Coupling and Coherent States
Covers the quantum harmonic oscillator and its applications in coupling quantum circuits.
Advanced General Chemistry I
Explores the quantization of energy levels, wave-particle duality, and uncertainty principle in advanced general chemistry.
Quantum Mechanics: Principles and Wave Functions
Explores quantum mechanics principles, wave functions, energy quantization, and particle confinement in a box.
