NUSOD 2025 – Conference on Numerical Simulation of Optoelectronic Devices
Lin Zschiedrich will present an Invited Talk at the 25th Conference on Numerical Simulation of Optoelectronic Devices (NUSOD2025) in Lodz, Poland, 18 Sept 2025: "Efficient Photonic Component Analysis via AAA Rational Approximation" www.nusod.net
29.07.2025 08:17 — 👍 1 🔁 1 💬 0 📌 0
Uncovering Hidden Resonances in Non‐Hermitian Systems with Scattering Thresholds
The points where diffraction orders emerge or vanish in the propagating spectrum of periodic non-Hermitian systems are referred to as scattering thresholds. Close to these branch points, resonances f...
Uncovering Hidden Resonances in Non‐Hermitian Systems with Scattering Thresholds: Collab w. @crockstuhl.bsky.social, F Koenderink @amolf-nl.bsky.social, @jcmwave.bsky.social, @zuseinstitute.bsky.social @mathplusberlin.bsky.social published @wiley.com Laser Photonics Reviews doi.org/10.1002/lpor...
22.07.2025 11:45 — 👍 2 🔁 3 💬 2 📌 0
Thanks to all participants of #AMPD2025! 71 nanophotonics presentations and 110 participants at the 17th Annual Meeting Photonic Devices in Berlin! @zuseinstitute.bsky.social , @mathplusberlin.bsky.social . Looking forward to #AMPD2026!
08.04.2025 15:57 — 👍 3 🔁 1 💬 1 📌 0
Fundamental mode in a photonic crystal fiber, PCF, computed using AAA rational approximation. See also: data publication: http://dx.doi.org/10.5281/zenodo.14202408, method: https://doi.org/10.1002/lpor.202400584, https://doi.org/10.1002/adts.202400989
Propagation modes in photonic crystal fibers: efficient computation using #AAARationalApproximation: Article in @degruyterbrill.bsky.social Nanophotonics: doi.org/10.1515/nano...
@zuseinstitute.bsky.social @jcmwave.bsky.social @mathplusberlin.bsky.social @felixbinkowski.bsky.social
18.03.2025 10:27 — 👍 5 🔁 2 💬 0 📌 0
Happy to share our preprint on AAA rational approximation for photonic fibers doi.org/10.48550/arX...! We show how to compute only the fundamental modes within a dense spectrum of nonrelevant modes. Many thanks to my colleagues @cnoatzib.bsky.social, @zuseinstitute.bsky.social, @jcmwave.bsky.social!
19.12.2024 09:45 — 👍 2 🔁 3 💬 0 📌 0
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....
Computing #photonic #resonances using Tmatrix multi-scattering &#AAARationalApproximation. Collaboration with JDFischbach @crockstuhl.bsky.social, @felixbinkowski.bsky.social @zuseinstitute.bsky.social, #IBMresearch, @jcmwave.bsky.social, Paper in Adv Theory Simul doi.org/10.1002/adts...
11.12.2024 08:48 — 👍 5 🔁 4 💬 0 📌 0
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
06.12.2024 10:03 — 👍 1 🔁 1 💬 0 📌 0
Poles and zeros in non-Hermitian systems: Application to photonics
Resonances are essential for understanding the interactions between light and matter in photonic systems. The real frequency response of the non-Hermitian systems depends on the complex-valued resonan...
Direct computation of Poles and Zeros of response functions in non-Hermitian systems, based on contour integration: doi.org/10.1103/Phys... #photonics #numerics #RieszProjection, collab with Pat Genevet @coschoolofmines.bsky.social, @jcmwave.bsky.social, @felixbinkowski.bsky.social
06.12.2024 16:41 — 👍 2 🔁 2 💬 0 📌 0
Schematics showing a visualization of an electromagnetic field distribution at an exceptional point, as well as a contour integral used for its computation.
Stable and accurate computation of eigenfrequency sensitivities near exceptional points, #nonHermitian systems #photonics #directDifferentiation @zuseinstitute.bsky.social @felixbinkowski.bsky.social #PhysRevResearch dx.doi.org/10.1103/Phys...
29.11.2024 15:03 — 👍 3 🔁 2 💬 0 📌 0
Article highlighted in Laser & Photonics Reviews: Highly efficient #QuasiNormalMode #QNM analysis using #AAA #RationalApproximation. #NanoPhotonics
@zuseinstitute.bsky.social @felixbinkowski.bsky.social
doi.org/10.1002/lpor...
27.11.2024 12:53 — 👍 5 🔁 2 💬 0 📌 0
Save the date: 17th Annual Meeting Photonic Devices 02-04 April 2025, Berlin, #AMPD2025, www.zib.de/workshop-pho..., @zuseinstitute.bsky.social
22.11.2024 17:23 — 👍 4 🔁 2 💬 0 📌 0
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