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Engineering Dissipation with Resistive Elements in Circuit Quantum Electrodynamics

Marco Cattaneo, Gheorghe Sorin Paraoanu

2021Advanced Quantum Technologies36 citationsDOIOpen Access PDF

Abstract

Abstract The importance of dissipation engineering ranges from universal quantum computation to non‐equilibrium quantum thermodynamics. In recent years, more and more theoretical and experimental studies have shown the relevance of this topic for circuit quantum electrodynamics, one of the major platforms in the race for a quantum computer. This article discusses how to simulate thermal baths by inserting resistive elements in networks of superconducting qubits. Apart from pedagogically reviewing the phenomenological and microscopic models of a resistor as thermal bath with Johnson–Nyquist noise, the paper introduces some new results in the weak coupling limit, showing that the most common examples of open quantum systems can be simulated through capacitively coupled superconducting qubits and resistors. The aim of the manuscript, written with a broad audience in mind, is to be both an instructive tutorial about how to derive and characterize the Hamiltonian of general dissipative superconducting circuits with capacitive coupling, and a review of the most relevant and topical theoretical and experimental works focused on resistive elements and dissipation engineering.

Topics & Concepts

PhysicsResistive touchscreenDissipationCircuit quantum electrodynamicsQuantumQubitCapacitive couplingDissipative systemOpen quantum systemResistorQuantum mechanicsHamiltonian (control theory)Quantum computerCoupling (piping)Quantum technologyQuantum dissipationElectronic circuitSuperconductivitySuperconducting quantum computingQuantum simulatorThermalCapacitive sensingQuantum Hall effectTheoretical physicsComputationQuantum error correctionQuantum informationQuantum opticsElectrical elementQuantum gateElectrical engineeringQuantum electrodynamicsQuantum networkQuantum and electron transport phenomenaQuantum many-body systemsQuantum Information and Cryptography
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