Exploring the Fidelity of Flux Qubit Measurement in Different Bases via Quantum Flux Parametron
- URL: http://arxiv.org/abs/2510.24082v1
- Date: Tue, 28 Oct 2025 05:51:45 GMT
- Title: Exploring the Fidelity of Flux Qubit Measurement in Different Bases via Quantum Flux Parametron
- Authors: Yanjun Ji, Susanna Kirchhoff, Frank K. Wilhelm,
- Abstract summary: High-fidelity qubit readout is a fundamental requirement for quantum computing systems.<n>We investigate methods to enhance the measurement fidelity of flux qubits via a quantum flux parametron-mediated readout scheme.
- Score: 0.0347577906896546
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: High-fidelity qubit readout is a fundamental requirement for practical quantum computing systems. In this work, we investigate methods to enhance the measurement fidelity of flux qubits via a quantum flux parametron-mediated readout scheme. Through theoretical modeling and numerical simulations, we analyze the impact of different measurement bases on fidelity in single-qubit and coupled two-qubit systems. For single-qubit systems, we show that energy bases consistently outperform flux bases in achieving higher fidelity. In coupled two-qubit systems, we explore two measurement models: sequential and simultaneous measurements, both aimed at reading out a single target qubit. Our results indicate that the highest fidelity can be achieved either by performing sequential measurement in a dressed basis over a longer duration or by conducting simultaneous measurement in a bare basis over a shorter duration. Importantly, the sequential measurement model consistently yields more robust and higher fidelity readouts compared to the simultaneous approach. These findings quantify achievable fidelities and provide valuable guidance for optimizing measurement protocols in emerging quantum computing architectures.
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