Monolithic microwave pulses-to-qubits integration on-chip for scaled quantum computation
POSTER
Abstract
Large-scale quantum computers are crucial for implementing large quantum algorithm and error correction. To drive and readout numbers of qubits in a scaled superconductor quantum computer, on-chip microwave sources can help minimize the extensive coaxial wiring connections between qubits and room-temperature signal generators. Recently, a cryogenic on-chip microwave pulse generator, consisting of a resonator and a SQUID, have been proposed as a microwave source [1]. In this study, we designed and integrated a microwave pulse generator with a 2D transmon qubit on the same chip. We characterized the signal source from microwave pulse generator. Finally, we discussed the results of the qubits driven by microwave pulse generator.
Publication: [1] Bao, Z et al., Nat Commun 15, 5958 (2024)
Presenters
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Wei-Che Hsu
University of California, Los Angeles
Authors
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Wei-Che Hsu
University of California, Los Angeles
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Cody S Fan
University of California, Los Angeles
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Renjie Kang
University of California Los Angeles, University of California, Los Angeles
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Sophi Chen Song
University of California, Los Angeles
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Raphael Low
University of California Los Angeles, University of California, Los Angeles
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Jin Ho Kang
University of California, Los Angeles
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Qiyu Liu
University of California Los Angeles, University of California, Los Angeles
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Chee Wei Wong
University of California, Los Angeles