Predicting Multi-Order Magnetic Polariton Resonances for Radiative Properties Tailoring by Distributed Circuit Model
Abstract
Surface plasmon polaritons (SPPs) and magnetic polaritons (MPs) are fundamental resonance modes that are widely used to tailor the thermal radiation properties of micro/nanostructured metamaterials.
Lumped circuit models (LCMs) are usually constructed empirically to describe the MP resonance conditions, and different LCMs have to be constructed for different orders of MPs, but these are difficult to be built for high-order MP modes due to the complex electromagnetic field distribution.
This work proposes a new type of circuit model, distributed circuit model (DCM), to describe and predict multi-order MP resonances inside the structure based on the minimum total impedance condition.
This allows both fundamental and high-order MP resonances to be predicted with a unified circuit, significantly simplifying the analysis of high-order MPs.
More importantly, the DCM shares a similar and clear physical picture as the LCM for describing MPs.
The MP resonance conditions for four typical structures are derived.
Theoretical predictions based on DCMs are compared with and validated by rigorous numerical simulations.
This study deepens the understanding and facilitates the design of MP-based thermal radiation metamaterials.
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