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Fullwave Fdtd Module, supplied by Rsoft Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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fdtd, fullwave 4.0  (Rsoft Inc)
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( a ) The calculated transmission spectra of the capped aluminum nanoslits with different structure parameters for normally incident TM-polarized light using the <t>FDTD</t> calculation method. The structure parameters were P = 470 nm, H = 60–90 nm, T = 20–80 nm and W = 60 nm. The open circle lines show Fano and Lorentz fitting curves. The extracted Fano factors were −1.89 × 10 , −1.06, −0.71,−1.56 and 0. ( b ) The resonance field (Ez) distributions for the resonance peaks (P2-P5) and dips (D1-D4) with different Fano factors. ( c ) The calculated decay lengths at peak and dip wavelengths for the capped nanoslits with different Fano factors. The average decay lengths were 444 and 892 nm for the resonance dip and peak, respectively. The decay length decreased to 338 nm when the Fano factor was −1.06.
Fdtd, Fullwave 4.0, supplied by Rsoft Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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fdtd software package rsoft fullwave  (Rsoft Inc)
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( a ) The calculated transmission spectra of the capped aluminum nanoslits with different structure parameters for normally incident TM-polarized light using the <t>FDTD</t> calculation method. The structure parameters were P = 470 nm, H = 60–90 nm, T = 20–80 nm and W = 60 nm. The open circle lines show Fano and Lorentz fitting curves. The extracted Fano factors were −1.89 × 10 , −1.06, −0.71,−1.56 and 0. ( b ) The resonance field (Ez) distributions for the resonance peaks (P2-P5) and dips (D1-D4) with different Fano factors. ( c ) The calculated decay lengths at peak and dip wavelengths for the capped nanoslits with different Fano factors. The average decay lengths were 444 and 892 nm for the resonance dip and peak, respectively. The decay length decreased to 338 nm when the Fano factor was −1.06.
Fdtd Software Package Rsoft Fullwave, supplied by Rsoft Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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finite-difference time domain (fdtd) method rsoft fullwave  (Rsoft Inc)
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( a ) The calculated transmission spectra of the capped aluminum nanoslits with different structure parameters for normally incident TM-polarized light using the <t>FDTD</t> calculation method. The structure parameters were P = 470 nm, H = 60–90 nm, T = 20–80 nm and W = 60 nm. The open circle lines show Fano and Lorentz fitting curves. The extracted Fano factors were −1.89 × 10 , −1.06, −0.71,−1.56 and 0. ( b ) The resonance field (Ez) distributions for the resonance peaks (P2-P5) and dips (D1-D4) with different Fano factors. ( c ) The calculated decay lengths at peak and dip wavelengths for the capped nanoslits with different Fano factors. The average decay lengths were 444 and 892 nm for the resonance dip and peak, respectively. The decay length decreased to 338 nm when the Fano factor was −1.06.
Finite Difference Time Domain (Fdtd) Method Rsoft Fullwave, supplied by Rsoft Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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fullwave  (Rsoft Inc)
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(a), (b), Normalized cross-section intensity field distributions with propagation of OLEDs without (a) and with (b) MEN-patterned PEDOT:PSS layer using Finite Difference Time Domain <t>(FDTD)</t> method (Rsoft FullWave). (c), (d), Normalized cross-section magnetic field profiles of TM polarized light at 720 nm for OSC without (c) and with (d) MEN-patterned ZnO layer.
Fullwave, supplied by Rsoft Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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commercial fdtd software  (Rsoft Inc)
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(a), (b), Normalized cross-section intensity field distributions with propagation of OLEDs without (a) and with (b) MEN-patterned PEDOT:PSS layer using Finite Difference Time Domain <t>(FDTD)</t> method (Rsoft FullWave). (c), (d), Normalized cross-section magnetic field profiles of TM polarized light at 720 nm for OSC without (c) and with (d) MEN-patterned ZnO layer.
Commercial Fdtd Software, supplied by Rsoft Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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fdtd code  (Rsoft Inc)
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(a), (b), Normalized cross-section intensity field distributions with propagation of OLEDs without (a) and with (b) MEN-patterned PEDOT:PSS layer using Finite Difference Time Domain <t>(FDTD)</t> method (Rsoft FullWave). (c), (d), Normalized cross-section magnetic field profiles of TM polarized light at 720 nm for OSC without (c) and with (d) MEN-patterned ZnO layer.
Fdtd Code, supplied by Rsoft Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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fullwave software (fdtd method)  (Rsoft Inc)
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(a), (b), Normalized cross-section intensity field distributions with propagation of OLEDs without (a) and with (b) MEN-patterned PEDOT:PSS layer using Finite Difference Time Domain <t>(FDTD)</t> method (Rsoft FullWave). (c), (d), Normalized cross-section magnetic field profiles of TM polarized light at 720 nm for OSC without (c) and with (d) MEN-patterned ZnO layer.
Fullwave Software (Fdtd Method), supplied by Rsoft Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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fdtd procedure  (Rsoft Inc)
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(a), (b), Normalized cross-section intensity field distributions with propagation of OLEDs without (a) and with (b) MEN-patterned PEDOT:PSS layer using Finite Difference Time Domain <t>(FDTD)</t> method (Rsoft FullWave). (c), (d), Normalized cross-section magnetic field profiles of TM polarized light at 720 nm for OSC without (c) and with (d) MEN-patterned ZnO layer.
Fdtd Procedure, supplied by Rsoft Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


( a ) The calculated transmission spectra of the capped aluminum nanoslits with different structure parameters for normally incident TM-polarized light using the FDTD calculation method. The structure parameters were P = 470 nm, H = 60–90 nm, T = 20–80 nm and W = 60 nm. The open circle lines show Fano and Lorentz fitting curves. The extracted Fano factors were −1.89 × 10 , −1.06, −0.71,−1.56 and 0. ( b ) The resonance field (Ez) distributions for the resonance peaks (P2-P5) and dips (D1-D4) with different Fano factors. ( c ) The calculated decay lengths at peak and dip wavelengths for the capped nanoslits with different Fano factors. The average decay lengths were 444 and 892 nm for the resonance dip and peak, respectively. The decay length decreased to 338 nm when the Fano factor was −1.06.

Journal: Scientific Reports

Article Title: Highly Sensitive Aluminum-Based Biosensors using Tailorable Fano Resonances in Capped Nanostructures

doi: 10.1038/srep44104

Figure Lengend Snippet: ( a ) The calculated transmission spectra of the capped aluminum nanoslits with different structure parameters for normally incident TM-polarized light using the FDTD calculation method. The structure parameters were P = 470 nm, H = 60–90 nm, T = 20–80 nm and W = 60 nm. The open circle lines show Fano and Lorentz fitting curves. The extracted Fano factors were −1.89 × 10 , −1.06, −0.71,−1.56 and 0. ( b ) The resonance field (Ez) distributions for the resonance peaks (P2-P5) and dips (D1-D4) with different Fano factors. ( c ) The calculated decay lengths at peak and dip wavelengths for the capped nanoslits with different Fano factors. The average decay lengths were 444 and 892 nm for the resonance dip and peak, respectively. The decay length decreased to 338 nm when the Fano factor was −1.06.

Article Snippet: We further utilized finite-difference time-domain (FDTD, FullWAVE 4.0, RSoft) simulations to verify the decreased decay lengths for the Fano resonance at peak and dip wavelengths. shows the calculated transmission spectra of the 470-nm-period capped aluminum nanoslits with different structure parameters for normally incident TM-polarized light.

Techniques: Transmission Assay

(a), (b), Normalized cross-section intensity field distributions with propagation of OLEDs without (a) and with (b) MEN-patterned PEDOT:PSS layer using Finite Difference Time Domain (FDTD) method (Rsoft FullWave). (c), (d), Normalized cross-section magnetic field profiles of TM polarized light at 720 nm for OSC without (c) and with (d) MEN-patterned ZnO layer.

Journal: Scientific Reports

Article Title: Light Manipulation for Organic Optoelectronics Using Bio-inspired Moth's Eye Nanostructures

doi: 10.1038/srep04040

Figure Lengend Snippet: (a), (b), Normalized cross-section intensity field distributions with propagation of OLEDs without (a) and with (b) MEN-patterned PEDOT:PSS layer using Finite Difference Time Domain (FDTD) method (Rsoft FullWave). (c), (d), Normalized cross-section magnetic field profiles of TM polarized light at 720 nm for OSC without (c) and with (d) MEN-patterned ZnO layer.

Article Snippet: For simulation of light out-coupling in OLEDs, the FDTD method (RSoft Fullwave) was performed to investigate the light transmission characteristics.

Techniques: