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Feedback-receiver-based compensation of nonlinearities in trapped ion qubit gate signaling
Publikationstyp
Conference Paper
Date Issued
2026-03
Sprache
English
Start Page
326
End Page
329
Citation
17th German Microwave Conference, GeMiC 2026
Contribution to Conference
Publisher DOI
Scopus ID
Publisher
IEEE
ISBN of container
979-8-3195-1955-9
This paper presents an analog microwave frontend designed to downconvert and feed back the control signal for trapped ion qubits, which are frequency-multiplexed by the magnetic gradient induced coupling (MAGIC) principle. Shorter gate durations require a higher excitation signal power, increasing distortion caused by nonlinear components. The proposed feedback receiver serves the purpose of coupling out a portion of the generated qubit control signal to feed it back into the signal generation hardware. This enables closed-loop signal processing techniques to compensate for nonlinearities in signal generation, thus improving the idle fidelity of untargeted qubits. The characterization of a manufactured prototype is performed, followed by an active cancellation of spurious tones based on the downconverted qubit control signal to demonstrate the capability for qubit fidelity improvement.
Subjects
Fidelity
magnetic gradient induced coupling (MAGIC)
microwave frontend
quantum computing
qubit
receivers
DDC Class
621.38: Electronics, Communications Engineering