Efficient hybrid method for the modal analysis of optical microcavities and nanoresonators | Zendy

Tong Wu | Zendy; Denis Arrivault | Zendy; Marc Duruflé | Zendy; Alexandre Gras | Zendy; Felix Binkowski | Zendy; Sven Burger | Zendy; Wei Yan | Zendy; Philippe Lalanne | Zendy

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Efficient hybrid method for the modal analysis of optical microcavities and nanoresonators

Author(s) -

Tong Wu,

Denis Arrivault,

Marc Duruflé,

Alexandre Gras,

Felix Binkowski,

Sven Burger,

Wei Yan,

Philippe Lalanne

Publication year - 2021

Publication title -

journal of the optical society of america a

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.803

H-Index - 158

eISSN - 1520-8532

pISSN - 1084-7529

DOI - 10.1364/josaa.428224

Subject(s) - complementarity (molecular biology) , modal , inverse , computation , flexibility (engineering) , mode (computer interface) , inverse problem , computer science , physics , algorithm , materials science , mathematics , mathematical analysis , geometry , statistics , genetics , polymer chemistry , biology , operating system

We propose a novel hybrid method for accurately and efficiently analyzing microcavities and nanoresonators. The method combines the marked spirit of quasinormal mode expansion approaches, e.g., analyticity and physical insight, with the renowned strengths of real-frequency simulations, e.g., accuracy and flexibility. Real- and complex-frequency simulations offer a complementarity between accuracy and computation speed, opening new perspectives for challenging inverse design of nanoresonators.

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