Advanced finite-element methods for design and analysis of nanooptical   structures: Applications

S. Burger; L. Zschiedrich; J. Pomplun; M. Blome; F. Schmidt

arXiv:1304.4356·physics.optics·April 17, 2013

Advanced finite-element methods for design and analysis of nanooptical structures: Applications

S. Burger, L. Zschiedrich, J. Pomplun, M. Blome, F. Schmidt

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TL;DR

This paper reviews recent applications of advanced finite-element methods, specifically JCMsuite, in simulating various nanooptical structures across multiple fields, highlighting numerical achievements and practical applications.

Contribution

It provides a comprehensive overview of how finite-element methods are applied to nanooptical design, showcasing recent advancements and diverse application areas.

Findings

01

Successful simulation of optical metamaterials and plasmonics

02

Numerical methods improved design of photonic crystal fibers

03

Enhanced understanding of nanooptical device performance

Abstract

An overview on recent applications of the finite-element method Maxwell-solver JCMsuite to simulation tasks in nanooptics is given. Numerical achievements in the fields of optical metamaterials, plasmonics, photonic crystal fibers, light emitting devices, solar cells, optical lithography, optical metrology, integrated optics, and photonic crystals are summarized.

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