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4 - Quantum Circuit Theory

Published online by Cambridge University Press:  04 August 2022

Juan José García Ripoll
Juan José García Ripoll
Affiliation:
Instituto de Física Fundamental (IFF), CSIC, Spain
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Summary

In this chapter, we develop the conditions to observe quantum fluctuations and quantum phenomena (entanglement, superpositions, etc.) in quantum circuits. Assuming the right conditions of temperature, we develop the quantum mechanical theory that models those fluctuations in a circuit built from nondissipative superconducting elements. We use this theory of circuit quantization to obtain the quantum Hamiltonians for microwave resonators and waveguides, for superconducting qubits of various types, and for other elements such as SQUIDs. The chapter closes with an illustration of how the same theory provides us with numerical methods to study the eigenstates, eigenenergies, and dynamics of said Hamiltonians.

Keywords

quantum fluctuationscircuit quantizationmicrowave resonatorwaveguidequbitSQUIDphase-number representation
Type
Chapter
Information
Quantum Information and Quantum Optics with Superconducting Circuits , pp. 34 - 62
Publisher: Cambridge University Press
Print publication year: 2022

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