Floquet-engineered laser control switches between helical and chiral magnon edge states and their associated Nernst or thermal Hall effects in insulating antiferromagnets.
Title resolution pending
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
verdicts
UNVERDICTED 3representative citing papers
Phase differences between identical-frequency x-ray pumps increase nuclear excitations via cross-correlations in a driven cavity system and enable sub- to super-Poissonian statistics.
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.
citing papers explorer
-
Laser control of magnonic topological phases in antiferromagnets
Floquet-engineered laser control switches between helical and chiral magnon edge states and their associated Nernst or thermal Hall effects in insulating antiferromagnets.
-
Phase-enhanced excitations in pumped collective nuclear systems
Phase differences between identical-frequency x-ray pumps increase nuclear excitations via cross-correlations in a driven cavity system and enable sub- to super-Poissonian statistics.
-
Unveiling Vacuum Fluctuations and Nonclassical States with Cavity-Enhanced Tripartite Interactions
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.