On New Year’s Eve,Chinese President Xi Jinping delivered his 2026 New Year message via China Media Group and online platforms.The address signals China’s continued support for the aspirations of the Global South,off...On New Year’s Eve,Chinese President Xi Jinping delivered his 2026 New Year message via China Media Group and online platforms.The address signals China’s continued support for the aspirations of the Global South,offering political and moral backing at a time of heightened global uncertainty.展开更多
CONSPECTUS:The preserved bosonic nature of surface plasmon polaritons from incident photons allows plasmonic nanomaterials to serve as effective photonic platforms.The strong light−matter interaction occurring at the ...CONSPECTUS:The preserved bosonic nature of surface plasmon polaritons from incident photons allows plasmonic nanomaterials to serve as effective photonic platforms.The strong light−matter interaction occurring at the surface concentrates light energy within a narrow region,thereby altering the local density of optical states.This modified photonic environment is typically expressed as near-field enhancement and improves the transition probability of nearby molecules or quantum emitters.展开更多
文摘On New Year’s Eve,Chinese President Xi Jinping delivered his 2026 New Year message via China Media Group and online platforms.The address signals China’s continued support for the aspirations of the Global South,offering political and moral backing at a time of heightened global uncertainty.
基金supported by the National Research Foundation of Korea(NRF)grants,funded by Korean government(MSIT)(NRF-2021R1A2C3010083&RS-2024-00397807)Nano·Material Technology Development Program through the NRF,funded by Ministry of Science and ICT(RS-2024-00450828).
文摘CONSPECTUS:The preserved bosonic nature of surface plasmon polaritons from incident photons allows plasmonic nanomaterials to serve as effective photonic platforms.The strong light−matter interaction occurring at the surface concentrates light energy within a narrow region,thereby altering the local density of optical states.This modified photonic environment is typically expressed as near-field enhancement and improves the transition probability of nearby molecules or quantum emitters.
