Trapped-ion experiment reveals multi-Mpemba effect with multiple trajectory crossings, explained by a phase diagram combining SDM overlap and initial relaxation speed from the fastest decay mode.
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quant-ph 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Experimental MDI entanglement verification and quantification realized in a fully connected four-user time-bin quantum network using polarization-encoded trusted inputs and a single dataset without ancillary photons.
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Observation of quantum multi-Mpemba effect in a trapped-ion system
Trapped-ion experiment reveals multi-Mpemba effect with multiple trajectory crossings, explained by a phase diagram combining SDM overlap and initial relaxation speed from the fastest decay mode.
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Measurement-Device-Independent Entanglement Quantification in a Fully Connected Time-Bin Quantum Network
Experimental MDI entanglement verification and quantification realized in a fully connected four-user time-bin quantum network using polarization-encoded trusted inputs and a single dataset without ancillary photons.