Applications

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  1. High harmonic generation using plasmonic enhancement in metal nano structures

    To model the high harmonic generation in the vicinity of the metal nanostructure information on enhancement and spatial distribution of the electric field is required. For this aim JCMsuite has been utilized in this work.

    A. Husakou, et al. Polarization gating and circularly-polarized high harmonic generation using plasmonic enhancement in metal nanostructures. Opt. Express 19, 25346 (2011).

    2011 DOI Publication link

    nonlinear optics, Light Scattering Computation

  2. Efficient Bayesian inversion for shape reconstruction of lithography masks

    In order to quantify the uncertainties of reconstructed geometry parameters, a fast-to-evaluate surrogate for the forward model (a polynomial chaos expansion) is introduced. The surrogate allows, e.g., for determining the probability distribution of the geometry parameters given measurement data, and for a global sensitivity analysis of the measurement process. All methods are implemented in JCMsuite's analysis and optimization toolbox.

    N. Frachmin, et al. Efficient Bayesian inversion for shape reconstruction of lithography masks. Journal of Micro/Nanolithography, MEMS, and MOEMS, 19(2), 024001 (2020).

    2010 DOI Publication link

    Optical Metrology and Sensing, Optical and EUV Lithography, Light Scattering Computation, Optimization and Parameter Retrieval Methods, Uncertainty Quantification Methods

  3. Negative-permeability electromagnetically induced transparent and magnetically active metamaterials

    FEM simultions used in the analysis of optical metamaterials.

    K. Tsakmakidis, et al. Negative-permeability electromagnetically induced transparent and magnetically active metamaterials. Phys. Rev. B 81, 195128 (2010).

    2010 DOI

    Metamaterials, Light Scattering Computation

  4. Gold helix photonic metamaterials

    The dependence of gold helix metamaterial’s chiral optical properties on helix pitch, helix radius, two-dimensional lattice constant, wire radius, number of helix pitches, and angle of incidence are studied systematically using numerical methods.

    J. K. Gansel, et al. Gold helix photonic metamaterials: A numerical parameter study. Opt. Express 18, 1059 (2010).

    2010 DOI Publication link

    Metamaterials, optical chirality, plasmonics, Light Scattering Computation

  5. Crescent-Shaped Metal Nanoparticles for Sensing Applications

    Plasmonic resonances of crescent-shaped nanoparticles respond to the attachment of colloidal particles by a shift of the resonance wavelength, as predicted in numerical simulations using FEM.

    A. Unger, et al. Sensitivity of Crescent-Shaped Metal Nanoparticles to Attachment of Dielectric Colloids. Nano Lett. 9, 2311 (2009).

    2009 DOI

    Optical Metrology and Sensing, plasmonics, Light Scattering Computation

  6. Metamaterials at telecommunication and visible frequencies

    Excitation of resonances in arrays of gold split ring resonators. Comparison with FEM simulation results gives good agreement and also shows that the structures allow for a negative magnetic permeability.

    C. Enkrich, et al. Magnetic metamaterials at telecommunication and visible frequencies. Phys. Rev. Lett. 95, 203901 (2005).

    2005 DOI Publication link

    Metamaterials, plasmonics, Light Scattering Computation