Feedback control on DM interaction strength doubles time-averaged negativity under colored magnetic noise and yields 2.4 times better quantum Fisher information for static field estimation.
Quantum interface between light and atomic ensembles
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
citation-role summary
background 2
citation-polarity summary
fields
quant-ph 3roles
background 2polarities
background 2representative citing papers
The authors identify distinct regimes for QND measurement squeezing (short times) and deterministic squeezing (longer times) via the ratio of tensor to vector light shifts, predicting a spin variance of 0.03 in 50 ms for Yb-173.
Proposes using sum-frequency generation-based quantum frequency conversion combined with resonant confinement in ring resonators to bridge broadband flying qubits with narrowband quantum memories for long-range quantum networks.
citing papers explorer
-
Optimizing Quantum Entanglement Preservation in a Qubit-Qubit System with Dzyaloshinskii Moriya Interaction under Noisy Magnetic Fields via Feedback Control
Feedback control on DM interaction strength doubles time-averaged negativity under colored magnetic noise and yields 2.4 times better quantum Fisher information for static field estimation.
-
Deterministic nuclear spin squeezing and squeezing by continuous measurement using vector and tensor light shifts
The authors identify distinct regimes for QND measurement squeezing (short times) and deterministic squeezing (longer times) via the ratio of tensor to vector light shifts, predicting a spin variance of 0.03 in 50 ms for Yb-173.
-
Toward quantum interconnects featuring nanometer-to-picometer bandwidth compression and THz-range quantum frequency conversion
Proposes using sum-frequency generation-based quantum frequency conversion combined with resonant confinement in ring resonators to bridge broadband flying qubits with narrowband quantum memories for long-range quantum networks.