Temporal nonlocality robustness TNR of a qudit resides entirely in the input state and certifies temporal teleportation up to the limit (d-1)/d.
Jamio lkowski, Rep
2 Pith papers cite this work. Polarity classification is still indexing.
fields
quant-ph 2years
2026 2representative citing papers
In an N-qubit network with one conserved excitation, a single transition amplitude determines positivity and complete positivity of subsystem propagators, links them to excitation flow and Fisher information, and reveals an unvisited band of states inside the positivity domain.
citing papers explorer
-
Temporal nonlocality of a qudit resides in the input state, not the channel, and certifies temporal teleportation up to a fundamental limit
Temporal nonlocality robustness TNR of a qudit resides entirely in the input state and certifies temporal teleportation up to the limit (d-1)/d.
-
Excitation Flow, Positivity, and Fisher Information for Open Subsystems of an $N$-Qubit Network
In an N-qubit network with one conserved excitation, a single transition amplitude determines positivity and complete positivity of subsystem propagators, links them to excitation flow and Fisher information, and reveals an unvisited band of states inside the positivity domain.