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Lecture
Superconducting Electronics: Materials Perspective
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Related lectures (32)
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Superconducting Quantum Bits
Covers superconductors, Cooper pairs, resonator quality factors, and quantum bits in electronics.
Germanium Quantum Technology
Delves into the use of germanium in quantum computing, emphasizing hole-based quantum systems and materials advancements.
Hybrid superconducting / quantum dot circuits
Covers hybrid cavity quantum electrodynamics with quantum dots and Josephson junction arrays, focusing on spin qubits and superconducting qubits.
Superconducting Quantum Interference Device
Explores the operation of a DC SQUID, a superconducting device with extraordinary resolution.
Superconducting Qubits: Principles and Applications
Covers the principles and applications of superconducting qubits in quantum science.
Quantum Information Processing: Superconducting Circuits
Introduces experimental realizations of quantum information processing, focusing on superconducting circuits and the differences between classical and quantum computing.
Superconducting Qubits: Circuit QED Technology
Explores superconducting qubits and circuit quantum electrodynamics technology, discussing relaxation, dephasing, environmental noise, and material defects.
Cooper Pair Box and Transmon Regimes
Explores the Cooper Pair Box and Transmon qubit regimes, energy levels, and properties.
Extended Josephson Junctions: Modeling and Critical Current
Covers the magnetic thickness, short and long junctions, and critical current.
Trapped Ions: Quantum Gates
Covers the fundamentals of trapped ions in quantum information and the importance of geometric phases in quantum optics.
