物理
等离子体子
谐振器
光子学
材料科学
消散
耗散系统
纳米棒
离散偶极子近似
自发辐射
电磁辐射
超辐射
共振(粒子物理)
耦合模理论
电磁场
形式主义(音乐)
太赫兹辐射
偶极子
光学
塞尔效应
量子力学
纳米技术
折射率
激光器
艺术
音乐剧
视觉艺术
作者
Christophe Sauvan,Jean‐Paul Hugonin,Ivan S. Maksymov,Philippe Lalanne
标识
DOI:10.1103/physrevlett.110.237401
摘要
We provide a self-consistent electromagnetic theory of the coupling between dipole emitters and dissipative nanoresonators. The theory that relies on the concept of quasinormal modes with complex frequencies provides an accurate closed-form expression for the electromagnetic local density of states of any photonic or plasmonic resonator with strong radiation leakage, absorption, and material dispersion. It represents a powerful tool to calculate and conceptualize the electromagnetic response of systems that are governed by a small number of resonance modes. We use the formalism to revisit Purcell's factor. The new formula substantially differs from the usual one; in particular, it predicts that a spectral detuning between the emitter and the resonance does not necessarily result in a Lorentzian response in the presence of dissipation. Comparisons with fully vectorial numerical calculations for plasmonic nanoresonators made of gold nanorods evidence the high accuracy of the predictions achieved by our semianalytical treatment.
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