11{
2- "8ChannelDemultiplexer.ipynb" : [" 8ChannelDemultiplexer.gds"
3- "90OpticalHybrid.ipynb" : [" mmi_stl.stl" " optical_hybrid_stl.stl"
4- "AdjointPlugin3InverseDesign.ipynb" : [" inv_des_mode_conv.gds"
5- "AdjointPlugin6GratingCoupler.ipynb" : [" invdes_gc.json" " inverse_designed_gc.gds"
6- "AdjointPlugin8WaveguideBend.ipynb" : [" inverse_des_wg_bend.gds"
7- "AdjointPlugin9WDM.ipynb" : [" inv_des_wdm.gds"
8- "AdjointPlugin10YBranchLevelSet.ipynb" : [" y_branch_fab.pkl" " inv_des_ybranch.gds"
9- "AdjointPlugin12LightExtractor.ipynb" : [" qe_light_coupler.pkl" " inv_des_light_extractor.gds"
10- "Autograd6GratingCoupler.ipynb" : [" grating_coupler_history_autograd.pkl"
11- "CMOSRGBSensor" : [" red_eps.csv" " green_eps.csv" " blue_eps.csv"
12- "DifferentialStripline.ipynb" : [" stripline_fem_mode.csv" " stripline_fit_mode.txt" " stripline_fem_sparam_long.csv" " stripline_fit_sparams_long.txt"
13- "GroundedCPWViaFence.ipynb" : [" gcpw_sain_experimental.csv" " gcpw_sain_simulated.csv"
14- "EdgeFeedPatchAntennaBenchmark.ipynb" : [" edge_feed_patch_fem.csv" " edge_feed_patch_fem_gain.csv"
15- "HybridMicrostripCPWBandpassFilter.ipynb" : [" mccpw_fem.csv"
16- "Fitting.ipynb" : [" nk_data.csv"
17- "FocusedApodGC.ipynb" : [" Focusing_GC.gds"
18- "GDSImport.ipynb" : [" coupler.gds"
19- "GDSExport.ipynb" : [" dc_export_gds.gds"
20- "Near2FarSphereRCS.ipynb" : [" mie_bRCS_phi0_2lambda_epsr4.txt" " mie_bRCS_phi90_2lambda_epsr4.txt"
21- "NonHermitianMetagratings.ipynb" : [" Cr_Sytchkova.csv"
22- "OptimizedL3.ipynb" : [" optimized_L3_holes.txt"
23- "PlasmonicNanoparticle.ipynb" : [" mie_plasmonic_flux_abs.txt" " mie_plasmonic_flux_scat.txt" " mie_plasmonic_RCS.txt"
24- "PlasmonicYagiUdaNanoantenna.ipynb" : [" McPeak.csv"
25- "STLImport.ipynb" : [" box.stl" " box_with_hole.stl" " box_with_indent.stl" " icecream_nonunionized.stl" " icecream_unionized.stl" " two_boxes.stl"
26- "RadiativeCoolingGlass.ipynb" : [" mat_SiO2.csv" " mat_Al2O3.csv"
27- "XarrayTutorial.ipynb" : [" gaussian_beam_data.h5" " mmi_simulation_data.h5" " waveguide_mode_data.h5"
28- "TunableChiralMetasurface.ipynb" : [" GST_A_nk.csv" " GST_C_nk.csv"
29- "MoS2Waveguide.ipynb" : [" MoS2_nk.csv"
30- "FreeFormCoupler.ipynb" : [" chip_to_chip_coupler.stl"
31- "UnstructuredData.ipynb" : [" unstructured_grid.vtu"
32- "MMIMeepBenchmark.ipynb" : [" MeepMMI.txt"
33- "Autograd13Metasurface.ipynb" : [" logo.png"
34- "DirectionalCoupler.ipynb" : [ " misc/coupler.gds"
35- "MultipoleExpansion.ipynb" : [
36- " misc/mie_electric_dipole"
37- " misc/mie_magnetic_dipole"
38- " misc/mie_electric_quadrupole"
39- " misc/mie_magnetic_quadrupole"
40- ]
41- }
2+ "8ChannelDemultiplexer.ipynb" : [ " 8ChannelDemultiplexer.gds"
3+ "90OpticalHybrid.ipynb" : [ " mmi_stl.stl" " optical_hybrid_stl.stl"
4+ "AdjointPlugin3InverseDesign.ipynb" : [ " inv_des_mode_conv.gds"
5+ "AdjointPlugin6GratingCoupler.ipynb" : [ " invdes_gc.json" " inverse_designed_gc.gds"
6+ "AdjointPlugin8WaveguideBend.ipynb" : [ " inverse_des_wg_bend.gds"
7+ "AdjointPlugin9WDM.ipynb" : [ " inv_des_wdm.gds"
8+ "AdjointPlugin10YBranchLevelSet.ipynb" : [ " y_branch_fab.pkl" " inv_des_ybranch.gds"
9+ "AdjointPlugin12LightExtractor.ipynb" : [ " qe_light_coupler.pkl" " inv_des_light_extractor.gds"
10+ "Autograd6GratingCoupler.ipynb" : [ " grating_coupler_history_autograd.pkl"
11+ "CMOSRGBSensor" : [ " red_eps.csv" " green_eps.csv" " blue_eps.csv"
12+ "DifferentialStripline.ipynb" : [ " stripline_fem_mode.csv" " stripline_fit_mode.txt" " stripline_fem_sparam_long.csv" " stripline_fit_sparams_long.txt"
13+ "GroundedCPWViaFence.ipynb" : [ " gcpw_sain_experimental.csv" " gcpw_sain_simulated.csv"
14+ "EdgeFeedPatchAntennaBenchmark.ipynb" : [ " edge_feed_patch_fem.csv" " edge_feed_patch_fem_gain.csv"
15+ "HybridMicrostripCPWBandpassFilter.ipynb" : [ " mccpw_fem.csv"
16+ "Fitting.ipynb" : [ " nk_data.csv"
17+ "FocusedApodGC.ipynb" : [ " Focusing_GC.gds"
18+ "GDSImport.ipynb" : [ " coupler.gds"
19+ "GDSExport.ipynb" : [ " dc_export_gds.gds"
20+ "Near2FarSphereRCS.ipynb" : [ " mie_bRCS_phi0_2lambda_epsr4.txt" " mie_bRCS_phi90_2lambda_epsr4.txt"
21+ "NonHermitianMetagratings.ipynb" : [ " Cr_Sytchkova.csv"
22+ "OptimizedL3.ipynb" : [ " optimized_L3_holes.txt"
23+ "PlasmonicNanoparticle.ipynb" : [ " mie_plasmonic_flux_abs.txt" " mie_plasmonic_flux_scat.txt" " mie_plasmonic_RCS.txt"
24+ "PlasmonicYagiUdaNanoantenna.ipynb" : [ " McPeak.csv"
25+ "STLImport.ipynb" : [ " box.stl" " box_with_hole.stl" " box_with_indent.stl" " icecream_nonunionized.stl" " icecream_unionized.stl" " two_boxes.stl"
26+ "RadiativeCoolingGlass.ipynb" : [ " mat_SiO2.csv" " mat_Al2O3.csv"
27+ "XarrayTutorial.ipynb" : [ " gaussian_beam_data.h5" " mmi_simulation_data.h5" " waveguide_mode_data.h5"
28+ "TunableChiralMetasurface.ipynb" : [ " GST_A_nk.csv" " GST_C_nk.csv"
29+ "MoS2Waveguide.ipynb" : [ " MoS2_nk.csv"
30+ "FreeFormCoupler.ipynb" : [ " chip_to_chip_coupler.stl"
31+ "UnstructuredData.ipynb" : [ " unstructured_grid.vtu"
32+ "MMIMeepBenchmark.ipynb" : [ " MeepMMI.txt"
33+ "Autograd13Metasurface.ipynb" : [ " logo.png"
34+ "DirectionalCoupler.ipynb" : [ " misc/coupler.gds"
35+ "MultipoleExpansion.ipynb" : [ " misc/mie_electric_dipole" " misc/mie_magnetic_dipole" " misc/mie_electric_quadrupole" " misc/mie_magnetic_quadrupole"
36+ }
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