This choice ensures that the system does not overheat while leaving sufficient range to further bias each qubit to the working and idle points usingZpulses

Measure the DC-bias-dependent spectrum of each qubit, choose a modest DC bias that places each qubit at a suitable frequency

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Wave--particle transition and quantum Zeno effect in which-way experiments with a superconducting quantum processor

quant-ph · 2026-04-21 · conditional · novelty 5.0

Superconducting qubits realize tunable which-way measurements in a Mach-Zehnder interferometer, demonstrating wave-particle duality transition, entanglement breaking, and the quantum Zeno effect with derived entropy-visibility complementarity relations.

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Wave--particle transition and quantum Zeno effect in which-way experiments with a superconducting quantum processor quant-ph · 2026-04-21 · conditional · none · ref 73
Superconducting qubits realize tunable which-way measurements in a Mach-Zehnder interferometer, demonstrating wave-particle duality transition, entanglement breaking, and the quantum Zeno effect with derived entropy-visibility complementarity relations.

This choice ensures that the system does not overheat while leaving sufficient range to further bias each qubit to the working and idle points usingZpulses

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