Quantum breakthrough links light and magnetism in atomically thin materials
Researchers at the City College of New York have published a review in Nature Materials examining progress in atomically thin quantum materials where light and magnetism interact directly. The review, titled "Excitons in van der Waals magnetic materials," focuses on layered magnetic semiconductors that allow light-generated excitons to interact with magnetic order and magnetic waves called magnons. Physicist Vinod M. Menon's Laboratory for Nano and Micro Photonics led the work, with postdoctoral researcher Pratap Chandra Adak as lead author. The researchers state that in these materials, excitons can sense spin order and magnons, and under certain conditions may help control the magnetic state. Potential applications identified include magneto-photonic memory, all-optical logic, and quantum transducers for converting signals between microwave and optical frequencies. The review notes that many possible materials remain unstudied and that better theoretical models are needed to predict interactions between excitons, spins, lattice vibrations, and photons. The work was supported by DARPA and the Gordon and Betty Moore Foundation.
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Sources: ScienceDaily
