Welcome to JCMsuite’s installation guide! — Installation

#JCMsuite V6.6.1, new release of our FEM solver is online.
Upgrade to the newest version or download a demo license from:
installation.jcmwave.com
#FiniteElementMethod #Photonics #MachineLearning #Optimization

Physics Informed Bayesian Optimization For Efficient Solution Of Inverse Problems In Nanophotonics!
Inv Talk at 15th International Conference on Metamaterials, Photonic Crystals and Plasmonics, META 2025, Session 2A10.
#MachineLearning #Optimization #JCMsuite @zuseinstitute.bsky.social

Image shows M.H., CEO of JCMwave, at Malaga, META2025 conference. https://metaconferences.org/META25/index.php/META/index In this contribution, we present a rigorous method for calculating resonance modes from scattering solutions of nanophotonic systems. We demonstrate its application in computing resonant states in periodic nanostructures such as metasurfaces, nanostructured waveguides, and other photonic systems. https://doi.org/10.1002/lpor.202400584 https://doi.org/10.1002/lpor.202500811

Martin Hammerschmidt at META 2025, Spain. 15th International Conference on Metamaterials, Photonic Crystals and Plasmonics. Inv Talk "Extracting Resonances In Nanophotonic Systems From Light Scattering Simulations", Session 2A12, #photonics #AAARationalApproximation #numerics #JCMsuite.

Image: Solar TAP Online Workshop on Digital Twins for Emerging Photovoltaics, https://solartap.de/events/solar-tap-online-workshop-on-digital-twins-for-emerging-photovoltaics/

Solar TAP Online Workshop on Digital Twins for Emerging #Photovoltaics, 30.06.-01.07.2025: solartap.de/events/ features a session on Optical Simulations with #JCMsuite by #JCMwave #SolarTAP @fc-modal.bsky.social‬ @kit.edu‬ @crockstuhl.bsky.social

Welcome to JCMsuite’s installation guide! — Installation

#JCMsuite V6.6.0, new release of our FEM solver is online. Upgrade to the newest version or download a demo license from: installation.jcmwave.com
#FiniteElementMethod #Photonics #MachineLearning #Optimization

Investigation of Ti nanostructures via laboratory scanning-free GEXRF The ability to characterize periodic nanostructures in the laboratory gains more attention as nanotechnology is widely utilized in a variety of application fields. Scanning-free grazing-emission X-ray...

Investigation of Ti nanostructures via laboratory scanning-free GEXRF --
doi.org/10.1039/D4NR...
#JCMsuite #FiniteElementMethod #photonics #numerics

On-demand storage and retrieval of single photons from a semiconductor quantum dot in a room-temperature atomic vapor memory Interfacing light from solid-state single-photon sources with scalable and robust room-temperature quantum memories has been a long-standing challenge in photonic quantum information technologies due ...

On-demand storage and retrieval of single photons from a semiconductor quantum dot in a room-temperature atomic vapor memory --
doi.org/10.48550/arX...
#JCMsuite #FiniteElementMethod #photonics #numerics

Inverse‐Designed Dispersive Time‐Varying Nanostructures A differentiable T-matrix-based inverse design framework is presented to tailor the optical response of dispersive time-varying nanostructures. The framework can handle time-varying spheres and spati...

Inverse-Designed Dispersive Time-Varying Nanostructures --
doi.org/10.1002/adom...
#JCMsuite #FiniteElementMethod #photonics #numerics

A fiber-pigtailed quantum dot device generating indistinguishable photons at GHz clock-rates Solid-state quantum light sources based on semiconductor quantum dots (QDs) are increasingly employed in photonic quantum information applications. Especially when moving towards real-world scenarios ...

A fiber-pigtailed quantum dot device generating indistinguishable photons at GHz clock-rates --
doi.org/10.1515/nano...
#JCMsuite #FiniteElementMethod #photonics #numerics

Hybrid approach to reconstruct nanoscale grating dimensions using scattering and fluorescence with soft X-rays Scatterometry is a tested method for measuring periodic semiconductor structures. As modern semiconductor structures have reached the nanoscale, determining their shape with sub-nanometer accuracy has...

Hybrid approach to reconstruct nanoscale grating dimensions using scattering and fluorescence with soft X-rays --
doi.org/10.1039/D4NR...
#JCMsuite #FiniteElementMethod #photonics #numerics

Optica Publishing Group

Numerical study of high-temperature, disk-based tungsten and molybdenum thermophotovoltaic selective thermal emitters --
doi.org/10.1364/OE.5...
#JCMsuite #FiniteElementMethod #photonics #numerics

Resolution enhancement methods in optical microscopy for dimensional optical metrology | Journal of the European Optical Society-Rapid PublicationsMendeley JEOS:RP: Rapid progress in optics and photonics has broadened its application enormously into many branches, including information and communication technology, ...

Resolution enhancement methods in optical microscopy for dimensional optical metrology --
doi.org/10.1051/jeos...
#JCMsuite #FiniteElementMethod #photonics #numerics

A Framework to Compute Resonances Arising from Multiple Scattering Photonic resonances frequently arise from the interaction among multiple scatterers. It is shown how prior knowledge of such constituents can be used to compute resonances in nanophotonic systems eff...

A Framework to Compute Resonances Arising from Multiple Scattering --
doi.org/10.1002/adts...
#JCMsuite #FiniteElementMethod #photonics #numerics

On-chip fiber coupling of semiconductor-based quantum light sources by micro-optical systems Humanity is currently on the cusp of the second quantum revolution, which promises a disruptive increase in the capabilities of quantum technologies. Semiconductor quantum dot-based single-photon sour...

On-chip fiber coupling of semiconductor-based quantum light sources by micro-optical systems --
doi.org/10.14279/dep...
#JCMsuite #FiniteElementMethod #photonics #numerics

Redirecting

SR-FABNet: Super-Resolution branch guided Fourier attention detection network for efficient optical inspection of nanoscale wafer defects --
doi.org/10.1016/j.ae...
#JCMsuite #FiniteElementMethod #photonics #numerics

Chiral Plasmonic Crystals Self-Assembled by DNA Origami Periodic lattices of high refractive index materials manipulate light in exceptional manners. Resulting remarkable properties range from photonic band gaps to chiral active matter, which critically depend on parameters of crystal lattices such as the unit cell, lattice type, and periodicity. In self-assembled materials, the lattice properties are inherited by the geometry and size of the macromolecules or colloidal particles assembling the unit cell. DNA origami allows for excellent control over the size and shape of assembled macromolecules while simultaneously allowing control over the interaction between them and ultimately the crystal’s structure. Here, we present the assembly of chiral, rhombohedral crystals in one, two, and three dimensions built by a DNA origami tensegrity triangle. Subsequent modification of the lattice with gold nanorods converts the lattices into chiral plasmonic metamaterials active in the visible and near-infrared spectral range. We demonstrate their chiral activity and corroborate the experimental results with simulated data.

Chiral Plasmonic Crystals Self-Assembled by DNA Origami --
doi.org/10.1021/acs....
#JCMsuite #FiniteElementMethod #photonics #numerics

Optical Simulations of Nanotextured All‐Perovskite Tandem Solar Cells Nanotextures improve the optical performance of all-perovskite tandem solar cells. Front textures reduce reflective losses. “Pronounced” textures (750 nm period and 405 nm height) in-between wide-ban...

Optical Simulations of Nanotextured All-Perovskite Tandem Solar Cells --
doi.org/10.1002/adts...
#JCMsuite #FiniteElementMethod #photonics #numerics

Angle‐Tolerant Circular Eigenpolarizations Enabled by Orientational Disorder in Dielectric Metasurfaces This study demonstrates that orientational disorder in all-dielectric chiral bilayer metasurfaces suppresses linear birefringence and enables robust circular eigenpolarizations across wide angular an...

Angle-Tolerant Circular Eigenpolarizations Enabled by Orientational Disorder in Dielectric Metasurfaces --
doi.org/10.1002/adom...
#JCMsuite #FiniteElementMethod #photonics #numerics

Calculating the spectral response strength of non-Hermitian systems with an exceptional point directly from wave simulations Exceptional points are spectral degeneracies in open systems, which have attracted considerable attention in recent years. One reason for the attention is that physical systems with an exceptional poi...

Calculating the spectral response strength of non-Hermitian systems with an exceptional point directly from wave simulations --
doi.org/10.1103/Phys...
#JCMsuite #FiniteElementMethod #photonics #numerics

This is a thread for highlighting recent scientific publications which use #JCMsuite software in their research.
#FiniteElementMethod #Optimization #photonics #numerics

Welcome to JCMsuite’s installation guide! — Installation

#JCMsuite V6.4.8, new release of our FEM solver is online. Upgrade to the newest version or download a demo license from: installation.jcmwave.com

Redirecting

Plasmonic nanoparticles enable optical hot spots for enhanced optical sensitivity: Results from collaboration with Peter Petrik's group at Hungarian Center for Energy Research published in Sens Actuators B Chem, #JCMsuite FEM solver, #Euramet project POLIGHT: doi.org/10.1016/j.sn...