Light absorption by MIM structures
Results.DGTDMim History
Show minor edits - Show changes to output
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%center% Reflection coefficient of the periodic structure
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%center% Absorption coefficient of the periodic structure
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High speed photonic integrated circuits (PICs) are the subject of intense research in recent years. The introduction of surface plasmon polaritons (SPPs) at metal dielectric interfaces made it possible to overcome the diffraction limit and confine light on sub-wavelength scales. Waveguides based on SPPs have also been demonstrated, in the form of Metal-Insulator-Metal (MIM) waveguides. MIM waveguides are mostly used because they provide highconfinement within the core region.
to:
High speed photonic integrated circuits (PICs) are the subject of intense research in recent years. The introduction of surface plasmon polaritons (SPPs) at metal dielectric interfaces made it possible to overcome the diffraction limit and confine light on sub-wavelength scales. Waveguides based on SPPs have also been demonstrated, in the form of Metal-Insulator-Metal (MIM) waveguides. MIM waveguides are mostly used because they provide high confinement within the core region.
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(:table align='center' border='5px' bordercolor='black' width='100%' bgcolor='ivory':)
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(:table align='center' border='5px' bordercolor='black' width='50%' bgcolor='ivory':)
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Periodic tetrahedral mesh of the MIM structure surrounded by air. The red cells correspond to aluminium, and the green ones to silica. Grey cells constitute the PML layers.
to:
Periodic tetrahedral mesh of the MIM structure surrounded by air. The red cells correspond to aluminium, and the green ones to silica. Grey cells constitute the PML layers. The tetrahedral mesh consists of 479 vertices and 1783 tetrahedra. Simulations have been performed on 4 cores of a Dell C6220 server equipped with Intel Xeon E5-2680@2.80 GHz CPU.
(:table align='center' border='5px' bordercolor='black' width='100%' bgcolor='ivory':)
(:cellnr align='center':)
(:cell align='center':) Elapsed time
(:cellnr align='left':) DGTD-P'_1_' method
(:cell align='center':) 20 sec
(:cellnr align='left':) DGTD-P'_2_' method
(:cell align='center':) 84 sec
(:cellnr align='left':) DGTD-P'_3_' method
(:cell align='center':) 315 sec
(:tableend:)
(:table align='center' border='5px' bordercolor='black' width='100%' bgcolor='ivory':)
(:cellnr align='center':)
(:cell align='center':) Elapsed time
(:cellnr align='left':) DGTD-P'_1_' method
(:cell align='center':) 20 sec
(:cellnr align='left':) DGTD-P'_2_' method
(:cell align='center':) 84 sec
(:cellnr align='left':) DGTD-P'_3_' method
(:cell align='center':) 315 sec
(:tableend:)
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%lfloat text-align=center width=250px% http://www-sop.inria.fr/nachos/pics/results/nano_sphere/nano_sphere-mesh.jpg |
Tetrahedral mesh for plasmonic resonance of a gold nanosphere with radius 50 nm. The scatterer (in red) is enclosed by the total field (TF) region (in blue), delimited by the TF/SF interface on which the incident field is imposed. Then we find the scattered field (SF) region (in purple), surrounded by UPMLs (in gray).
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%lfloat text-align=left width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/new/meshview.png | Periodic tetrahedral mesh of the MIM structure surrounded by air. The red cells correspond to aluminium, and the green ones to silica. Grey cells constitute the PML layers.
(:linebreaks:)
(:linebreaks:)
%lfloat text-align=left width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/new/meshview.png | Periodic tetrahedral mesh of the MIM structure surrounded by air. The red cells correspond to aluminium, and the green ones to silica. Grey cells constitute the PML layers.
to:
%lfloat text-align=left width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/new/meshview.png |
Periodic tetrahedral mesh of the MIM structure surrounded by air. The red cells correspond to aluminium, and the green ones to silica. Grey cells constitute the PML layers.
Periodic tetrahedral mesh of the MIM structure surrounded by air. The red cells correspond to aluminium, and the green ones to silica. Grey cells constitute the PML layers.
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%lfloat text-align=center width=250px% http://www-sop.inria.fr/nachos/pics/results/nano_sphere/nano_sphere-mesh.jpg |
Tetrahedral mesh for plasmonic resonance of a gold nanosphere with radius 50 nm. The scatterer (in red) is enclosed by the total field (TF) region (in blue), delimited by the TF/SF interface on which the incident field is imposed. Then we find the scattered field (SF) region (in purple), surrounded by UPMLs (in gray).
(:linebreaks:)
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%center% Amplitude of the discrete Fourier transform of the magnetic field (values are scaled to maximum data range)
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%center% Amplitude of the discrete Fourier transform of the magnetic field
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(:cellnr align='center':) DGTD-P'_1_' method
(:cell align='center':) DGTD-P'_2_' method
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(:cellnr align='center':) DGTD-P'_2_' method
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(:cell align='center':) DGTD-P'_4_' method
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%center% Amplitude of the discrete Fourier transform of the magnetic field (values are scaled to maximum data range)
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%center% Reflection coefficient of the periodic structure
%center% Reflection coefficient of the periodic structure
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%lfloat text-align=left width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/new/meshview.png | Periodic tetrahedral mesh of the MIM structure surrounded by air. [[<<]] The red cells correspond to aluminium, and the green ones to silica. Grey cells constitute the PML layers.
to:
%lfloat text-align=left width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/new/meshview.png | Periodic tetrahedral mesh of the MIM structure surrounded by air. The red cells correspond to aluminium, and the green ones to silica. Grey cells constitute the PML layers.
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%lfloat text-align=left width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/new/meshview.png | Periodic tetrahedral mesh of the MIM structure surrounded by air. The red cells correspond to
aluminium, and the green ones to silica. Grey cells constitute the PML layers.[[<<]]
aluminium, and the green ones to silica. Grey cells constitute the PML layers.
to:
%lfloat text-align=left width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/new/meshview.png | Periodic tetrahedral mesh of the MIM structure surrounded by air. [[<<]] The red cells correspond to aluminium, and the green ones to silica. Grey cells constitute the PML layers.
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%lfloat text-align=left width=100px% %width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/new/meshview.png | Periodic tetrahedral mesh of the MIM structure surrounded by air. The red cells correspond to
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%lfloat text-align=left width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/new/meshview.png | Periodic tetrahedral mesh of the MIM structure surrounded by air. The red cells correspond to
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%lfloat text-align=left width=800px% %width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/new/meshview.png | Periodic tetrahedral mesh of the MIM structure surrounded by air. The red cells correspond to
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%lfloat text-align=left width=100px% %width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/new/meshview.png | Periodic tetrahedral mesh of the MIM structure surrounded by air. The red cells correspond to
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%lfloat text-align=left width=800px% %width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/new/meshview.png | Periodic tetrahedral mesh of the MIM structure surrounded by air. The red cells correspond to
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%lfloat text-align=left width=300px% %width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/new/meshview.png | Periodic tetrahedral mesh of the MIM structure surrounded by air. [[<<]] The red cells correspond to
aluminium, and the green ones to silica. Grey cells constitute the PML layers.
aluminium, and the green ones to silica. Grey cells constitute the PML layers.
to:
%lfloat text-align=left width=500px% %width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/new/meshview.png | Periodic tetrahedral mesh of the MIM structure surrounded by air. The red cells correspond to
aluminium, and the green ones to silica. Grey cells constitute the PML layers. [[<<]]
aluminium, and the green ones to silica. Grey cells constitute the PML layers. [[<<]]
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%lfloat text-align=left width=300px% %width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/new/meshview.png | Periodic tetrahedral mesh of the MIM structure surrounded by air. The red cells correspond to
aluminium, and the green ones to silica. Grey cells constitute the PML layers. [[<<]]
aluminium, and the green ones to silica. Grey cells constitute the PML layers.
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%lfloat text-align=left width=300px% %width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/new/meshview.png | Periodic tetrahedral mesh of the MIM structure surrounded by air. [[<<]] The red cells correspond to
aluminium, and the green ones to silica. Grey cells constitute the PML layers.
aluminium, and the green ones to silica. Grey cells constitute the PML layers.
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%lfloat text-align=left width=300px% %width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/new/meshview.png Periodic tetrahedral mesh of the MIM structure surrounded by air. The red cells correspond to
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%lfloat text-align=left width=300px% %width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/new/meshview.png | Periodic tetrahedral mesh of the MIM structure surrounded by air. The red cells correspond to
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%lfloat text-align=left width=300px% %width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/new/meshview.png [[<<]]
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%lfloat text-align=left width=300px% %width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/new/meshview.png Periodic tetrahedral mesh of the MIM structure surrounded by air. The red cells correspond to
aluminium, and the green ones to silica. Grey cells constitute the PML layers. [[<<]]
aluminium, and the green ones to silica. Grey cells constitute the PML layers. [[<<]]
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(:cellnr align='center':) DGTD-P'_1_' method
(:cell align='center':) DGTD-P'_2_' method
(:cell align='center':) DGTD-P'_3_' method
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(:cellnr align='center':) DGTD-P'_1_' method
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(:cell align='center':) DGTD-P'_3_' method
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High speed photonic integrated circuits (PICs) are the subject of intense research in recent years. The introduction of surface plasmon polaritons (SPPs) at metal dielectric interfaces made it possible to overcome the diffraction limit and confine light on sub-wavelength scales. Waveguides based on SPPs have also been demonstrated, in the form of Metal-Insulator-Metal (MIM) waveguides.
to:
High speed photonic integrated circuits (PICs) are the subject of intense research in recent years. The introduction of surface plasmon polaritons (SPPs) at metal dielectric interfaces made it possible to overcome the diffraction limit and confine light on sub-wavelength scales. Waveguides based on SPPs have also been demonstrated, in the form of Metal-Insulator-Metal (MIM) waveguides. MIM waveguides are mostly used because they provide highconfinement within the core region.
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(:cell align='center':) %width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/normH_view2.png
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(:cell align='center':) %width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/Ez_view4.png
(:cell align='center':) %width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/Hx_view4.png
(:cell align='center':) %width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/normH_view2.png
(:cell align='center':) %width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/normH_view3.png
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(:cell align='center':) %width=220px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/Hx_view4.png
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This study is conducted in collaboration with Salim Boutami and Alain Glière (Laboratoire Capteurs et Nanophotonique, CEA LETI, Grenoble).
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(:linebreaks:)
High speed photonic integrated circuits (PICs) are the subject of intense research in recent years. The introduction of surface plasmon polaritons (SPPs) at metal dielectric interfaces made it possible to overcome the diffraction limit and confine light on sub-wavelength scales. Waveguides based on SPPs have also been demonstrated, in the form of Metal-Insulator-Metal (MIM) waveguides.
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(:title MIM:)
to:
(:title Light absorption by MIM structures:)
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(:table border='0' width='50%' align='center' cellspacing='1px':)
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(:cell align='center':)%width=200px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/Ez_view4.png
(:cell align='center':)%width=200px% http://www-sop.inria.fr/nachos/pics/results/mim_structure/Hx_view4.png
(:tableend:)
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