This is the submitted version of the following article: Margherita ...
The emitter can couple with propagating surface plasmon polaritons at the resonant frequency through near-field coupling which provide wavevector large enough.
Resonant leaky modes in all-dielectric metasystems - NTU > IRepAbstract: The strong coupling between optical resonance microcavity and matter excitations provides a practical path for controlling light-matter ... Optical properties and polaritons of low symmetry 2D materialsLasing action assisted by Channel Plasmon Polaritons. . . . . . . . . . . 110. 3.4 ... Real-time tunable lasing from plasmonic nanocavity arrays. Nature. Photonics and optoelectronics using nano-structured hybrid ...14 Furthermore, the high exciton binding energy of organic molecules made it possible to reach low threshold polariton lasing and Bose?Einstein ... Hybrid plasmonic-photonic nanostructures for enhanced ...This work presents a novel strategy for developing low-loss, compact polaritonic devices, contributing to a deeper understanding of the strong ... Plasmonics for lasing action at the nanoscale.Dielectric geometries exhibiting Mie resonances have earned recent research interest to provide a versatile field for engineering the optical ... The Rise and Current Status of Polaritonic Photochemistry ... - PureDirectional lasing in resonant semiconductor nanoantenna ... ?Room-temperature exceptional-point-driven polariton lasing from perovskite. Theoretical Investigations of Mie Scattering and Virtual Excitations in ...Plasmonic effects can be used not only to improve the performance of perovskite-based photonic devices but also to improve the characterization and ... Resonant Scattering Manipulation of Dielectric Nanoparticles - HALIn this review, we discuss recent theoretical and experimental advances in characterizing the optical properties of dielectric nanoparticles, ... jzmjjmmmmmn^ *^. - INIS-IAEA???????????????????????????????????. ?????????????????? 130???????????????. ???????????????????? ????????? ...?????????????????????????????????????????. ????????????????????????????? ... ? ? ? ? ? ? - ??????????????????. ? ? ? ??????? ???????4??101??. TEL 0857-31-6761. ? ????????9?????9?30????????????? ... ????2 - ???TD????47???????????????????????????????? ... ??Coca?Cola????????????????????????????.
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