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Cryogenic CMOS for Qubit Control and Readout

Stefano Pellerano, Sushil Subramanian, Jong-Seok Park, Bishnu Patra, Todor Mladenov, Xiao Xue, Lieven M. K. Vandersypen, Masoud Babaie, Edoardo Charbon, Fabio Sebastiano

20222022 IEEE Custom Integrated Circuits Conference (CICC)30 citationsDOI

Abstract

Quantum computers have been heralded as a novel paradigm for the solution of today's intractable problems, whereas the core principles of quantum computation are superposition, entanglement and interference, three fundamental properties of quantum mechanics [1]. A quantum computer generally comprises a quantum processor, made of an array of quantum bits or qubits, and a classical controller, which is used to control and read out the qubits. Quantum algorithms are generally mapped onto a circuit of quantum gates that operate on multiple qubits. Unlike conventional digital bits, qubits can take a coherent state ranging from |0〉 to |1〉 on a continuous sphere, known as the Bloch Sphere and they are implemented based on several mechanisms. While many solid-state implementations of qubits exist, an exhaustive description of available technologies is beyond the scope of this paper [2] [3].

Topics & Concepts

QubitQuantum computerCluster stateComputer scienceQuantum technologyQuantum teleportationQuantum entanglementQuantum mechanicsQuantum gateQuantum networkSuperconducting quantum computingQuantum error correctionEntanglement distillationPhysicsQuantumTopology (electrical circuits)Open quantum systemElectrical engineeringEngineeringQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyQuantum and electron transport phenomena
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