PaNO neural operator improves port-power readout fidelity in photonic design surrogates over global-field baselines on a 3x3 MMI benchmark.
(2010) MEEP: A Flexible Free-Software Package for Electromagnetic Simulations by the FDTD Method.Computer Physics Communi- cations, v
5 Pith papers cite this work. Polarity classification is still indexing.
verdicts
UNVERDICTED 5representative citing papers
A unitary embedding turns discrete hyperdimensional vectors into waveforms, realizing bundling as superposition, permutation as phase evolution, binding as spectral mixing with aliasing, and similarity as differential power readout.
Yee FDTD simulations of normal-incidence plane waves on dielectric and magnetic interfaces exhibit systematic errors due to an implicit one-cell transition layer, quantified through discrete Fresnel coefficients and error estimates depending on impedance contrast and Courant number.
Accuracy maps reveal the validity domains of TEA, BPM, and WPM for binary gratings by direct overlap comparison to FMM reference calculations.
Correlates calculated metalens-antenna coupling efficiency with measured DSB noise temperature in a 1.63 THz HEB mixer and benchmarks against an elliptical lens.
citing papers explorer
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Will Accurate Fields Mislead Photonic Design? FromGlobal Accuracy to Port Readout
PaNO neural operator improves port-power readout fidelity in photonic design surrogates over global-field baselines on a 3x3 MMI benchmark.
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A wave-geometric duality for hyperdimensional computing
A unitary embedding turns discrete hyperdimensional vectors into waveforms, realizing bundling as superposition, permutation as phase evolution, binding as spectral mixing with aliasing, and similarity as differential power readout.
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Accuracy of the Yee FDTD Scheme for Normal Incidence of Plane Waves on Dielectric and Magnetic Interfaces
Yee FDTD simulations of normal-incidence plane waves on dielectric and magnetic interfaces exhibit systematic errors due to an implicit one-cell transition layer, quantified through discrete Fresnel coefficients and error estimates depending on impedance contrast and Courant number.
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Accuracy assessment of scalar wave propagation methods for diffractive optics design: from thin elements to thick binary grating
Accuracy maps reveal the validity domains of TEA, BPM, and WPM for binary gratings by direct overlap comparison to FMM reference calculations.
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Correlating Quasi-Optical Coupling Efficiency with Measured Receiver Noise Temperature in Metalens Coupled THz HEB Mixer
Correlates calculated metalens-antenna coupling efficiency with measured DSB noise temperature in a 1.63 THz HEB mixer and benchmarks against an elliptical lens.