Correcting on-chip distortion of control pulses with silicon spin qubits

In semiconductor quantum dot systems, pulse distortion is a significant source of coherent errors, which impedes qubit characterization and control. Here, we demonstrate two calibration methods using a two-qubit system as the detector to correct distortion and calibrate the transfer function of the...

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Veröffentlicht in:	Chinese physics B 2025-01, Vol.34 (1), p.10308
Hauptverfasser:	Ni, Ming, Ma, Rong-Long, Kong, Zhen-Zhen, Chu, Ning, Liao, Wei-Zhu, Zhu, Sheng-Kai, Wang, Chu, Luo, Gang, Liu, Di, Cao, Gang, Wang, Gui-Lei, Li, Hai-Ou, Guo, Guo-Ping
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Sprache:	eng
Schlagworte:	pulse distortion quantum computation quantum dot
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creator	Ni, Ming Ma, Rong-Long Kong, Zhen-Zhen Chu, Ning Liao, Wei-Zhu Zhu, Sheng-Kai Wang, Chu Luo, Gang Liu, Di Cao, Gang Wang, Gui-Lei Li, Hai-Ou Guo, Guo-Ping
description	In semiconductor quantum dot systems, pulse distortion is a significant source of coherent errors, which impedes qubit characterization and control. Here, we demonstrate two calibration methods using a two-qubit system as the detector to correct distortion and calibrate the transfer function of the control line. Both methods are straightforward to implement, robust against noise, and applicable to a wide range of qubit types. The two methods differ in correction accuracy and complexity. The first, coarse predistortion (CPD) method, partially mitigates distortion. The second, all predistortion (APD) method, measures the transfer function and significantly enhances exchange oscillation uniformity. Both methods use exchange oscillation homogeneity as the metric and are suitable for any qubit driven by a diabatic pulse. We believe these methods will enhance qubit characterization accuracy and operation quality in future applications.
doi_str_mv	10.1088/1674-1056/ad8db1
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title	Correcting on-chip distortion of control pulses with silicon spin qubits
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