RF Characterization on Nb-based Superconducting Silicon Interconnect Fabric for Future Large Scale Quantum Applications

Yu Tao Yang; Haoxiang Ren; Su Kong Chong; Gang Qiu; Shu Yun Ku; Yang Cheng; Chaowei Hu; Tiema Qian; Kuan Neng Chen; Ni Ni; Kang L. Wang; Subramanian S. Iyer

doi:10.1109/ECTC51906.2022.00154

RF Characterization on Nb-based Superconducting Silicon Interconnect Fabric for Future Large Scale Quantum Applications

Yu Tao Yang, Haoxiang Ren, Su Kong Chong, Gang Qiu, Shu Yun Ku, Yang Cheng, Chaowei Hu, Tiema Qian, Kuan Neng Chen, Ni Ni, Kang L. Wang, Subramanian S. Iyer

研究成果: Conference contribution › 同行評審

摘要

To preserve delicate quantum signals (few hundreds to a few tens of μV), low-loss and low-crosstalk inter-dielet communication is a must in a wafer-scale integrated quantum system using Superconducting-IF. In this paper, inter-dielet links (short: 125 μm and 500 μm; long: 1750 μm) with L/S (2/2 and 5/5 μm) are characterized in a broadband 20 GHz range through simulation and experiments at 4K A compact assembly (inter-dielet spacing of 100 μm) through the quantum-compatible fine-pitch (10 um) Au interlayer is conducted. For insertion loss and crosstalk characterization, the simulated and measured results are presented to be low-loss (<1 dB) and low-crosstalk (< -23 dB) in the broadband 20 GHz range with short (≤ 500 um) and long (1750 um) links and two L/S (2/2 and 5/5 um). It is one of the first 20 GHz broadband RF characterization of short superconducting links (≤ 500 um) through advanced packaging for cryogenic inter-dielet quantum communication. This work brings large-scale quantum computing closer to being realized through compact heterogeneous integration.

原文	English
主出版物標題	Proceedings - IEEE 72nd Electronic Components and Technology Conference, ECTC 2022
發行者	Institute of Electrical and Electronics Engineers Inc.
頁面	949-955
頁數	7
ISBN（電子）	9781665479431
DOIs	https://doi.org/10.1109/ECTC51906.2022.00154
出版狀態	Published - 2022
事件	72nd IEEE Electronic Components and Technology Conference, ECTC 2022 - San Diego, United States 持續時間: 31 5月 2022 → 3 6月 2022

出版系列

名字	Proceedings - Electronic Components and Technology Conference
卷	2022-May
ISSN（列印）	0569-5503

Conference

Conference	72nd IEEE Electronic Components and Technology Conference, ECTC 2022
國家/地區	United States
城市	San Diego
期間	31/05/22 → 3/06/22

存取文件

10.1109/ECTC51906.2022.00154

其它文件與鏈接

Link to publication in Scopus

引用此

Yang, Y. T., Ren, H., Chong, S. K., Qiu, G., Ku, S. Y., Cheng, Y., Hu, C., Qian, T., Chen, K. N., Ni, N., Wang, K. L., & Iyer, S. S. (2022). RF Characterization on Nb-based Superconducting Silicon Interconnect Fabric for Future Large Scale Quantum Applications. 於 Proceedings - IEEE 72nd Electronic Components and Technology Conference, ECTC 2022 (頁 949-955). (Proceedings - Electronic Components and Technology Conference; 卷 2022-May). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/ECTC51906.2022.00154

Yang, Yu Tao ; Ren, Haoxiang ; Chong, Su Kong 等. / RF Characterization on Nb-based Superconducting Silicon Interconnect Fabric for Future Large Scale Quantum Applications. Proceedings - IEEE 72nd Electronic Components and Technology Conference, ECTC 2022. Institute of Electrical and Electronics Engineers Inc., 2022. 頁 949-955 (Proceedings - Electronic Components and Technology Conference).

@inproceedings{b61075589ceb474f88b6c60faa9cde0e,

title = "RF Characterization on Nb-based Superconducting Silicon Interconnect Fabric for Future Large Scale Quantum Applications",

abstract = "To preserve delicate quantum signals (few hundreds to a few tens of μV), low-loss and low-crosstalk inter-dielet communication is a must in a wafer-scale integrated quantum system using Superconducting-IF. In this paper, inter-dielet links (short: 125 μm and 500 μm; long: 1750 μm) with L/S (2/2 and 5/5 μm) are characterized in a broadband 20 GHz range through simulation and experiments at 4K A compact assembly (inter-dielet spacing of 100 μm) through the quantum-compatible fine-pitch (10 um) Au interlayer is conducted. For insertion loss and crosstalk characterization, the simulated and measured results are presented to be low-loss (<1 dB) and low-crosstalk (< -23 dB) in the broadband 20 GHz range with short (≤ 500 um) and long (1750 um) links and two L/S (2/2 and 5/5 um). It is one of the first 20 GHz broadband RF characterization of short superconducting links (≤ 500 um) through advanced packaging for cryogenic inter-dielet quantum communication. This work brings large-scale quantum computing closer to being realized through compact heterogeneous integration.",

keywords = "Au interlayer, heterogeneous integration, Superconducting Silicon Interocnnect Fabric",

author = "Yang, {Yu Tao} and Haoxiang Ren and Chong, {Su Kong} and Gang Qiu and Ku, {Shu Yun} and Yang Cheng and Chaowei Hu and Tiema Qian and Chen, {Kuan Neng} and Ni Ni and Wang, {Kang L.} and Iyer, {Subramanian S.}",

note = "Publisher Copyright: {\textcopyright} 2022 IEEE.; 72nd IEEE Electronic Components and Technology Conference, ECTC 2022 ; Conference date: 31-05-2022 Through 03-06-2022",

year = "2022",

doi = "10.1109/ECTC51906.2022.00154",

language = "English",

series = "Proceedings - Electronic Components and Technology Conference",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

pages = "949--955",

booktitle = "Proceedings - IEEE 72nd Electronic Components and Technology Conference, ECTC 2022",

address = "United States",

}

Yang, YT, Ren, H, Chong, SK, Qiu, G, Ku, SY, Cheng, Y, Hu, C, Qian, T, Chen, KN, Ni, N, Wang, KL & Iyer, SS 2022, RF Characterization on Nb-based Superconducting Silicon Interconnect Fabric for Future Large Scale Quantum Applications. 於 Proceedings - IEEE 72nd Electronic Components and Technology Conference, ECTC 2022. Proceedings - Electronic Components and Technology Conference, 卷 2022-May, Institute of Electrical and Electronics Engineers Inc., 頁 949-955, 72nd IEEE Electronic Components and Technology Conference, ECTC 2022, San Diego, United States, 31/05/22. https://doi.org/10.1109/ECTC51906.2022.00154

RF Characterization on Nb-based Superconducting Silicon Interconnect Fabric for Future Large Scale Quantum Applications. / Yang, Yu Tao; Ren, Haoxiang; Chong, Su Kong 等.
Proceedings - IEEE 72nd Electronic Components and Technology Conference, ECTC 2022. Institute of Electrical and Electronics Engineers Inc., 2022. p. 949-955 (Proceedings - Electronic Components and Technology Conference; 卷 2022-May).

研究成果: Conference contribution › 同行評審

TY - GEN

T1 - RF Characterization on Nb-based Superconducting Silicon Interconnect Fabric for Future Large Scale Quantum Applications

AU - Yang, Yu Tao

AU - Ren, Haoxiang

AU - Chong, Su Kong

AU - Qiu, Gang

AU - Ku, Shu Yun

AU - Cheng, Yang

AU - Hu, Chaowei

AU - Qian, Tiema

AU - Chen, Kuan Neng

AU - Ni, Ni

AU - Wang, Kang L.

AU - Iyer, Subramanian S.

PY - 2022

Y1 - 2022

N2 - To preserve delicate quantum signals (few hundreds to a few tens of μV), low-loss and low-crosstalk inter-dielet communication is a must in a wafer-scale integrated quantum system using Superconducting-IF. In this paper, inter-dielet links (short: 125 μm and 500 μm; long: 1750 μm) with L/S (2/2 and 5/5 μm) are characterized in a broadband 20 GHz range through simulation and experiments at 4K A compact assembly (inter-dielet spacing of 100 μm) through the quantum-compatible fine-pitch (10 um) Au interlayer is conducted. For insertion loss and crosstalk characterization, the simulated and measured results are presented to be low-loss (<1 dB) and low-crosstalk (< -23 dB) in the broadband 20 GHz range with short (≤ 500 um) and long (1750 um) links and two L/S (2/2 and 5/5 um). It is one of the first 20 GHz broadband RF characterization of short superconducting links (≤ 500 um) through advanced packaging for cryogenic inter-dielet quantum communication. This work brings large-scale quantum computing closer to being realized through compact heterogeneous integration.

AB - To preserve delicate quantum signals (few hundreds to a few tens of μV), low-loss and low-crosstalk inter-dielet communication is a must in a wafer-scale integrated quantum system using Superconducting-IF. In this paper, inter-dielet links (short: 125 μm and 500 μm; long: 1750 μm) with L/S (2/2 and 5/5 μm) are characterized in a broadband 20 GHz range through simulation and experiments at 4K A compact assembly (inter-dielet spacing of 100 μm) through the quantum-compatible fine-pitch (10 um) Au interlayer is conducted. For insertion loss and crosstalk characterization, the simulated and measured results are presented to be low-loss (<1 dB) and low-crosstalk (< -23 dB) in the broadband 20 GHz range with short (≤ 500 um) and long (1750 um) links and two L/S (2/2 and 5/5 um). It is one of the first 20 GHz broadband RF characterization of short superconducting links (≤ 500 um) through advanced packaging for cryogenic inter-dielet quantum communication. This work brings large-scale quantum computing closer to being realized through compact heterogeneous integration.

KW - Au interlayer

KW - heterogeneous integration

KW - Superconducting Silicon Interocnnect Fabric

UR - http://www.scopus.com/inward/record.url?scp=85134692099&partnerID=8YFLogxK

U2 - 10.1109/ECTC51906.2022.00154

DO - 10.1109/ECTC51906.2022.00154

M3 - Conference contribution

AN - SCOPUS:85134692099

T3 - Proceedings - Electronic Components and Technology Conference

SP - 949

EP - 955

BT - Proceedings - IEEE 72nd Electronic Components and Technology Conference, ECTC 2022

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 72nd IEEE Electronic Components and Technology Conference, ECTC 2022

Y2 - 31 May 2022 through 3 June 2022

ER -

Yang YT, Ren H, Chong SK, Qiu G, Ku SY, Cheng Y 等. RF Characterization on Nb-based Superconducting Silicon Interconnect Fabric for Future Large Scale Quantum Applications. 於 Proceedings - IEEE 72nd Electronic Components and Technology Conference, ECTC 2022. Institute of Electrical and Electronics Engineers Inc. 2022. p. 949-955. (Proceedings - Electronic Components and Technology Conference). doi: 10.1109/ECTC51906.2022.00154

RF Characterization on Nb-based Superconducting Silicon Interconnect Fabric for Future Large Scale Quantum Applications

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