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Lecture
Quantum Computation: Basics and Harmonic Oscillator
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Quantum Computing Basics
Covers the basics of quantum computing, focusing on superconducting qubits, scaling challenges, and potential applications.
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 Qubits: Principles and Applications
Covers the principles and applications of superconducting qubits in quantum science.
Superconducting Qubits: Non-Demolition Measurements and Control Techniques
Covers superconducting qubits, focusing on non-demolition measurements and control techniques essential for quantum computing.
Cryo-CMOS electrical interfaces for large-scale quantum computers
Delves into Cryo-CMOS technology for quantum computers, focusing on challenges and advancements in cryogenic CMOS circuits.
Quantum Random Number Generation
Explores quantum random number generation, discussing the challenges and implementations of generating good randomness using quantum devices.
Quantum Metrology: Superconducting Electronics & Qubits
Explores quantum metrology, superconducting electronics, detectors, qubits, and quantum supremacy, emphasizing advancements in quantum computing.
Quantum Information: Bloch Sphere
Explores the Bloch sphere representation in quantum information and the dynamics of spin-1/2 systems.
Quantum Information: Bloch Sphere and Gates
Covers the basics of quantum information, including the Bloch sphere representation and quantum gates.
Trapped Ions Quantum Computing
Explores analog and digital quantum computing, quantum jumps, cooling of atoms with light, quantum computer technologies, and trapped ion quantum bits.
