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PHYS-464: Solid state systems for quantum information
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Lectures in this course (26)
Quantum Computing: Single Qubit Operations
Explores the requirements and challenges of quantum computing, focusing on single qubit operations and entanglement.
Jaynes-Cummings Hamiltonian
Explores the Jaynes-Cummings Hamiltonian, strong coupling with superconducting qubits, dispersive interaction, and vacuum Rabi splitting.
Quantum Computing Basics
Explores quantum computing basics, including qubit building, noise impact, readout schemes, and strong coupling regimes.
Quantum Parametric Amplifiers
Explores quantum parametric amplifiers and their role in improving quantum measurement accuracy and speed.
Quantum Information Processing: Superconducting Circuits
Introduces experimental realizations of quantum information processing, focusing on superconducting circuits and the differences between classical and quantum computing.
Quantum Technology: Building Solid State Systems
Delves into building quantum computers with various qubit types, operations, error rates, and historical algorithm milestones.
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