Cryogenic CMOS for Qubit Control and Readout

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

doi:10.1109/CICC53496.2022.9772841

Cryogenic CMOS for Qubit Control and Readout

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

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

7 Citations (Scopus)

429 Downloads (Pure)

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].

Original language	English
Title of host publication	2022 IEEE Custom Integrated Circuits Conference, CICC 2022 - Proceedings
Subtitle of host publication	Proceedings
Place of Publication	Piscataway
Publisher	IEEE
Number of pages	8
ISBN (Electronic)	978-1-6654-0756-4
ISBN (Print)	978-1-7281-8280-3
DOIs	https://doi.org/10.1109/CICC53496.2022.9772841
Publication status	Published - 2022
Event	2022 IEEE Custom Integrated Circuits Conference (CICC) - Hybrid Conference at Newport Beach, United States Duration: 24 Apr 2022 → 27 Apr 2022

Publication series

Name	Proceedings of the Custom Integrated Circuits Conference
Volume	2022-April
ISSN (Print)	0886-5930

Conference

Conference	2022 IEEE Custom Integrated Circuits Conference (CICC)
Abbreviated title	CICC 2022
Country/Territory	United States
City	Hybrid Conference at Newport Beach
Period	24/04/22 → 27/04/22

Bibliographical note

Green Open Access added to TU Delft Institutional Repository ‘You share, we take care!’ – Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public.

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10.1109/CICC53496.2022.9772841

Cryogenic_CMOS_for_Qubit_Control_and_ReadoutTaverneFinal published version, 1.5 MB

Cite this

Pellerano, S., Subramanian, S., Park, J.-S., Patra, B., Xue, X., Vandersypen, L. M. K., Babaie, M., Charbon, E., & Sebastiano, F. (2022). Cryogenic CMOS for Qubit Control and Readout. In 2022 IEEE Custom Integrated Circuits Conference, CICC 2022 - Proceedings: Proceedings Article 9772841 (Proceedings of the Custom Integrated Circuits Conference; Vol. 2022-April). IEEE. https://doi.org/10.1109/CICC53496.2022.9772841

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title = "Cryogenic CMOS for Qubit Control and Readout",

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].",

author = "Stefano Pellerano and Sushil Subramanian and Jong-Seok Park and Bishnu Patra and Xiao Xue and Vandersypen, {Lieven M.K.} and Masoud Babaie and Edoardo Charbon and Fabio Sebastiano",

note = "Green Open Access added to TU Delft Institutional Repository {\textquoteleft}You share, we take care!{\textquoteright} – Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public.; 2022 IEEE Custom Integrated Circuits<br/>Conference (CICC), CICC 2022 ; Conference date: 24-04-2022 Through 27-04-2022",

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Pellerano, S, Subramanian, S, Park, J-S, Patra, B, Xue, X , Vandersypen, LMK , Babaie, M , Charbon, E & Sebastiano, F 2022, Cryogenic CMOS for Qubit Control and Readout. in 2022 IEEE Custom Integrated Circuits Conference, CICC 2022 - Proceedings: Proceedings., 9772841, Proceedings of the Custom Integrated Circuits Conference, vol. 2022-April, IEEE, Piscataway, 2022 IEEE Custom Integrated Circuits
Conference (CICC), Hybrid Conference at Newport Beach, California, United States, 24/04/22. https://doi.org/10.1109/CICC53496.2022.9772841

Cryogenic CMOS for Qubit Control and Readout. / Pellerano, Stefano; Subramanian, Sushil ; Park, Jong-Seok et al.
2022 IEEE Custom Integrated Circuits Conference, CICC 2022 - Proceedings: Proceedings. Piscataway: IEEE, 2022. 9772841 (Proceedings of the Custom Integrated Circuits Conference; Vol. 2022-April).

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

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AU - Vandersypen, Lieven M.K.

AU - Babaie, Masoud

AU - Charbon, Edoardo

AU - Sebastiano, Fabio

N1 - Green Open Access added to TU Delft Institutional Repository ‘You share, we take care!’ – Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public.

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Y1 - 2022

N2 - 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].

AB - 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].

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ER -

Cryogenic CMOS for Qubit Control and Readout

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