Flexible simulation package for optical neural networks
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Apr 22, 2020 - Python
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nanophotonics
Here are 30 public repositories matching this topic...
Here, we use a conditional deep convolutional generative adversarial network (cDCGAN) to inverse design across multiple classes of metasurfaces. Reference: https://onlinelibrary.wiley.com/doi/10.1002/adom.202100548
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Jun 3, 2022 - Python
Simulations of photonic quantum programmable gate arrays
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Oct 10, 2020 - Jupyter Notebook
Gentle introduction and demo of the adjoint variable method for electromagnetic inverse design
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Jun 21, 2022 - Jupyter Notebook
Optimization and inverse design of photonic crystals using deep reinforcement learning
reinforcement-learning
deep-learning
optimization-algorithms
semiconductor-devices
optoelectronics
nanophotonics
inverse-design
photonic-crystal
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Apr 11, 2023 - Python
Pure Julia implementation of the finite difference frequency domain (FDFD) method for electromagnetics
julia
optics
electromagnetics
frequency-domain
fdfd
waveguide
finite-difference-method
eigenmode
nanophotonics
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Jan 1, 2021 - Jupyter Notebook
Modeling and designing Photonic Crystal Nanocavities via Deep Learning
deep-learning
laser
photonic-crystals
photonics
deepneuralnetworks
nanophotonics
convolutionalneuralnetwork
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Apr 7, 2022 - Python
Adjoint-based optimization and inverse design of photonic devices.
thesis
optimization
thesis-template
phd-thesis
electromagnetics
inverse-problems
adjoint
photonics
nanophotonics
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Aug 22, 2019 - TeX
Rigorous Coupled-Wave Analysis (RCWA) for nanophotonics simulations
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Nov 6, 2024 - Julia
2D multi-source electromagnetic simulations in frequency domain, implementing the augmented partial factorization (APF) and other methods.
electromagnetics
wave-equation
scattering
apf
fdfd
multiple-scattering
nanophotonics
scattering-matrix
augmented-partial-factorization
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May 9, 2024 - MATLAB
Arrayed Waveguide Grating (AWG) model and simulation in Matlab
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Jun 29, 2021 - MATLAB
Free and open-source code package designed to perform PyMEEP FDTD simulations applied to Plasmonics (UBA+CONICET) [Buenos Aires, Argentina]
fdtd
meep
electromagnetism
nanoparticles
plasmonics
nanophotonics
simulations-physics
absorption-spectra
scattering-physics
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Jan 19, 2022 - Python
Julia implementation of Mie theory for nanophotonics
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Apr 30, 2021 - Julia
3D multi-source electromagnetic simulations in frequency domain, implementing the augmented partial factorization (APF) and other methods.
electromagnetics
wave-equation
scattering
apf
fdfd
multiple-scattering
nanophotonics
scattering-matrix
augmented-partial-factorization
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Updated
Jul 11, 2024 - Julia
An nanophotonics solver for inverse design of metamaterials
julia
physics
metamaterials
plane-wave-expansion
electromagnetism
scattering
rcwa
nanophotonics
maxwell-equations
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Sep 23, 2023 - Julia
Calculating optical cross sections from an arbitrary scatterer using surface integral equation.
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Jan 22, 2023 - MATLAB
3D multi-source electromagnetic simulations in frequency domain, implementing the augmented partial factorization (APF) and other methods.
electromagnetics
wave-equation
scattering
apf
fdfd
multiple-scattering
nanophotonics
scattering-matrix
augmented-partial-factorization
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Updated
Jun 21, 2024 - Julia
The code for the work presented in the research paper titled "***"
python
deep-learning
anaconda
code
tensorflow
matlab
keras
artificial-intelligence
neural-networks
datasets
artificial-neural-network
scientific-reports
nanophotonics
inverse-design
supplementary-materials
supplementary-information
plasmonic-switch
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Mar 10, 2024 - Python
Computational Photonics in Python with the finite element method. Mirror of https://gitlab.com/gyptis/gyptis
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Feb 29, 2024 - Python
Here, we use Deep SHAP (or SHAP) to explain the behavior of nanophotonic structures learned by a convolutional neural network (CNN). Reference: https://pubs.acs.org/doi/full/10.1021/acsphotonics.0c01067
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May 7, 2022 - Python
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