Sub-Kelvin single flux quantum control circuits and multi-chip packaging for supporting superconducting qubit

S. Yorozu; T. Miyazaki; V. Semenov; Y. Nakamura; Y. Hashimoto; K. Hinode; T. Sato; Y. Kameda; S. Tsai

doi:10.1088/1742-6596/43/1/347

Sub-Kelvin single flux quantum control circuits and multi-chip packaging for supporting superconducting qubit

S. Yorozu
, T. Miyazaki
, V. Semenov
, Y. Nakamura
, Y. Hashimoto
, K. Hinode
, T. Sato
, Y. Kameda
, S. Tsai

Physics and Astronomy

International Superconductivity Technology Center
Japan Science and Technology Agency
NEC Corporation

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Superconducting single flux quantum (SFQ) circuit can operate at very low temperature. This is suitable for controlling a quantum computing system with Josephson junctions. However, it is difficult to integrate both SFQ circuits and qubits into a single-chip, because of the dissipative characteristics of SFQ circuits. Therefore, we have developed a multi-chip packaging technology for a qubit control module. The module consists of SFQ circuit chips, qubit chips, and a substrate all of which are fabricated with Nb and Al technology. The chips are flip-chip bonded with superconducting solder bumps. We also investigated SFQ control circuits for superconducting qubits and circuit parameter optimization for sub-Kelvin temperature operation. Using both multi-chip packaging and optimized SFQ control circuit makes the design of qubit control module more flexible.

Original language	English
Article number	347
Pages (from-to)	1417-1420
Number of pages	4
Journal	Journal of Physics: Conference Series
Volume	43
Issue number	1
DOIs	https://doi.org/10.1088/1742-6596/43/1/347
State	Published - Jun 1 2006

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AU - Yorozu, S.

AU - Miyazaki, T.

AU - Semenov, V.

AU - Nakamura, Y.

AU - Hashimoto, Y.

AU - Hinode, K.

AU - Sato, T.

AU - Kameda, Y.

AU - Tsai, S.

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AB - Superconducting single flux quantum (SFQ) circuit can operate at very low temperature. This is suitable for controlling a quantum computing system with Josephson junctions. However, it is difficult to integrate both SFQ circuits and qubits into a single-chip, because of the dissipative characteristics of SFQ circuits. Therefore, we have developed a multi-chip packaging technology for a qubit control module. The module consists of SFQ circuit chips, qubit chips, and a substrate all of which are fabricated with Nb and Al technology. The chips are flip-chip bonded with superconducting solder bumps. We also investigated SFQ control circuits for superconducting qubits and circuit parameter optimization for sub-Kelvin temperature operation. Using both multi-chip packaging and optimized SFQ control circuit makes the design of qubit control module more flexible.

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Sub-Kelvin single flux quantum control circuits and multi-chip packaging for supporting superconducting qubit

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