Meiling Jiang

TL;DR: A self-consistent framework that combines Bayesian optimization and convolutional neural network algorithms to calculate and optimize optical properties of metallic nanostructures and enables wide applications for future nanostructure analysis and design is reported.

TL;DR: The proposed configuration provides a delicate platform for the CL helicity control, which opens a way for the future chiral applications at subnanoscale like information coding and quantum communication.

TL;DR: The experimental concept and method provide an effective way to characterize and manipulate chiral light-matter interactions at the nanoscale, facilitating future applications in chiral quantum nanophotonics such as single-photon sources and light emission devices.

TL;DR: An ultrathin circular polarimeter consisting of chiral plasmonic metasurface and monolayer semiconductor is proposed to detect light with different circular polarization within a compact device and demonstrates the remarkable performance of the proposed device in detecting and distinguishing circularly polarized light.