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“Quantum phenomena do not occur in a Hilbert space. They occur in a laboratory".
-Asher Peres
Quantum computing is one of the most advanced realms of science at the moment. For the past half-century, the wonders classical computing brought to us have been remarkable and I wonder what the next century will bring
Circuit quantum electrodynamics (QED) is the study of the interaction of nonlinear superconducting circuits, acting as artificial atoms or as qubits for quantum information processing, with quantized electromagnetic fields in the microwave frequency domain.
Resources for Circuit QED
Resources for Circuit QED
This incorporates necessary libraries as well as a helpful GUI and connection to ANsys Desktop (HFSS, Q3D) to design and analyze Superconducting Circuits.
Quantum mechanics and quantum optics lectures and demonstrations using QuTiP
The Quantum Information Processing (QIP) module aims at providing basic tools for quantum computing simulation both for simple quantum algorithm design and for experimental realization. It offers two different approaches, one with QubitCircuit calculating unitary evolution under quantum gates by matrix product, another called Processor using open system solvers in QuTiP to simulate noisy quantum device.
3. Review Papers
3. Review Papers
Circuit Quantum Electrodynamics[ Alexandre Blais, Arne L. Grimsmo, S. M. Girvin, Andreas Wallraff ]
A Quantum Engineer's Guide to Superconducting Qubits[ Philip Krantz, Morten Kjaergaard, Fei Yan, Terry P. Orlando, Simon Gustavsson, William D. Oliver ]
A practical guide for building superconducting quantum devices [Yvonne Y. Gao, M. Adriaan Rol, Steven Touzard, Chen Wang]
4. Video Lectures
4. Video Lectures
Galileo Galilei Institute (GGI) Lectures on Quantum Information and sensing (2021)
Galileo Galilei Institute (GGI) Lectures on Quantum Information and sensing (2021)
Lecture by Alexandre Blais: Qubit Measurements and Signatures of Light-Matter Coupling
Lecture By Jens Koch: Introduction to Superconducting Circuits and Circuit-QED
Demonstration of Real Superconducting lab and experiment by Daniil Frolov:
Superconducting qubits characterization, Live tour of testing facilities at Fermilab
Qiskit Summer School Lectures by Zlatko Minev (2020)
Qiskit Summer School Lectures by Zlatko Minev (2020)
Superconducting Qubits I: Quantizing a Harmonic Oscillator, Josephson Junctions
Superconducting Qubits II: Circuit Quantum Electrodynamics, Readout and Calibration Methods
IQC Lecture by Alexandre Blais (2012)
IQC Lecture by Alexandre Blais (2012)
5. Code Demonstrations/ Jupyter Notebooks
5. Code Demonstrations/ Jupyter Notebooks
1.Qiskit Textbook (Chapter : 06)
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