A carbon nanotube microtoroid platform with Tomonaga-Luttinger liquid protection achieves chiral spin-momentum locking for nonreciprocal spin-photon interfaces with cooperativities above 100 and chiral contrast over 20 dB.
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Cavity-enhanced tripartite interactions are proposed to enable direct extraction of photon and phonon vacuum fluctuations without free parameters and to produce high-occupancy nonclassical quantum emitters via decay-enhanced blockade.
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A Universal Topological Platform for Nonreciprocal Spin-Photon Interface in Solid-State Quantum Networks
A carbon nanotube microtoroid platform with Tomonaga-Luttinger liquid protection achieves chiral spin-momentum locking for nonreciprocal spin-photon interfaces with cooperativities above 100 and chiral contrast over 20 dB.