GitHub topics: plasmonics
lavakyan/mstm-spectrum
Python wrapper for multiple sphere T-matrix (MSTM) code and Mie theory to calculate surface plasmon resonance (SPR) spectrum and fit it to experiment
Language: Python - Size: 3.24 MB - Last synced at: about 1 month ago - Pushed at: about 1 month ago - Stars: 19 - Forks: 6
pgrobasillobre/GraphAIne
AI graphene plasmonics
Language: Jupyter Notebook - Size: 18.6 KB - Last synced at: 3 months ago - Pushed at: 3 months ago - Stars: 0 - Forks: 0
ehsan20e20e/OctagonalRR_AOPS
The code for the work presented in the research paper titled "Inverse Design of Octagonal Plasmonic Structure for Switching Using Deep Learning"
Language: Python - Size: 2.23 MB - Last synced at: 11 months ago - Pushed at: 11 months ago - Stars: 0 - Forks: 0
ehsan20e20e/SquareRR_AOPS
The code for the work presented in the research paper titled "Nanophotonic Structure Inverse Design for Switching Application Using Deep Learning"
Language: Python - Size: 2.17 MB - Last synced at: 12 months ago - Pushed at: 12 months ago - Stars: 0 - Forks: 0
alexpiti/MLSWG
Mode solver for 1D waveguides composed of arbitrary number of slabs (layers). Vector solver: TE & TM polarizations. Supports complex-valued refractive index (plasmonic modes)
Language: MATLAB - Size: 85 KB - Last synced at: 12 months ago - Pushed at: 12 months ago - Stars: 6 - Forks: 0
rose3fa/RTACalc
MatLab thin film reflection, transmission, absorption calculator based on transfer matrix method. Includes ability to plot dispersion for arbitrary number of films and wavelength-dependent complex dielectric functions.
Size: 4.52 MB - Last synced at: over 1 year ago - Pushed at: over 3 years ago - Stars: 3 - Forks: 4
baffou/ThermalNanoLayer
Computes the optical properties (transmission, absorption, reflexion) of a multilayer system (dielectric or metallic layers), and the resulting 3D temperature distribution due to absorption. https://aip.scitation.org/doi/10.1063/5.0057185
Language: Mathematica - Size: 1.3 MB - Last synced at: over 1 year ago - Pushed at: almost 3 years ago - Stars: 0 - Forks: 1
sammylton/Electric-field-intensity-in-an-SPR-sensor
Modeled the electric field intensity inside an n-layer SPR sensor.
Language: MATLAB - Size: 69.3 KB - Last synced at: almost 2 years ago - Pushed at: almost 2 years ago - Stars: 1 - Forks: 0
0xInfty/PyMeepPlasmonics
Free and open-source code package designed to perform PyMEEP FDTD simulations applied to Plasmonics (UBA+CONICET) [Buenos Aires, Argentina]
Language: Python - Size: 4.86 MB - Last synced at: almost 2 years ago - Pushed at: over 3 years ago - Stars: 10 - Forks: 3
MahmutRuzi/photonics-sim-examples
Example codes for photonic simulations, mostly in the mid-IR region (2 um-20 um), using various open source packages.
Language: Jupyter Notebook - Size: 279 KB - Last synced at: about 1 year ago - Pushed at: about 2 years ago - Stars: 0 - Forks: 0
hasantahir/DeepNanoDesign Fork of ItzikMalkiel/DeepNanoDesign
Size: 106 MB - Last synced at: about 1 year ago - Pushed at: almost 6 years ago - Stars: 3 - Forks: 1
MatteoOrlandini/Plasma-frequency-and-permittivity
Calculate plasma frequency, plot the relation ω(β) and how permittivity changes as a function of frequency using MATLAB and MATLAB App Designer
Language: MATLAB - Size: 3.26 MB - Last synced at: almost 2 years ago - Pushed at: almost 5 years ago - Stars: 1 - Forks: 0
FabianGD/PlasmonicMEEP
Scripts to compute field enhancements of plasmonic nanostrucutres, mirrored from https://gitlab.com/theoretical-chemistry-jena/quantum-dynamics/plasmonic-meep/
Language: Python - Size: 21.9 MB - Last synced at: 9 months ago - Pushed at: over 2 years ago - Stars: 0 - Forks: 0
kuljitvirk/pyMie
Python implementation of Mie theory to compute electromagnetic fields in the near and far zones along with self-consistency tests in Jupyter Notebooks.
Language: Jupyter Notebook - Size: 2.62 MB - Last synced at: about 1 year ago - Pushed at: over 4 years ago - Stars: 0 - Forks: 1
