An all-optical method identifies magic polarization angles for selective Raman control of 6-level hyperfine qudits in 173Yb, providing universal single-qudit gates and Rydberg-based two-qudit operations.
Shi, Coherence-preserving cooling of nuclear-spin qubits in a weak magnetic field, Phys
3 Pith papers cite this work. Polarity classification is still indexing.
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Pith papers citing it
years
2026 3verdicts
UNVERDICTED 3representative citing papers
Bichromatic tweezers with selected wavelengths and intensity ratio suppress differential AC Stark shifts in ⁸⁷Sr ³P₂, creating scalar and tensor magic conditions for qudit encoding.
Quantized motion of trapped polar molecules realizes an asymmetric quantum Rabi model and trap-dipole resonance while supporting high-fidelity iSWAP and controlled-phase gates.
citing papers explorer
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All-Optical Universal Control of Hyperfine Qudits in Trapped Neutral Atoms
An all-optical method identifies magic polarization angles for selective Raman control of 6-level hyperfine qudits in 173Yb, providing universal single-qudit gates and Rydberg-based two-qudit operations.
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Bichromatic Tweezers for Qudit Quantum Computing in ${}^{87}$Sr
Bichromatic tweezers with selected wavelengths and intensity ratio suppress differential AC Stark shifts in ⁸⁷Sr ³P₂, creating scalar and tensor magic conditions for qudit encoding.
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Asymmetric quantum Rabi model, trap-dipole resonance, and quantum gates with optically trapped ultracold polar molecules
Quantized motion of trapped polar molecules realizes an asymmetric quantum Rabi model and trap-dipole resonance while supporting high-fidelity iSWAP and controlled-phase gates.