5-Channel Polymer/Silica Hybrid Arrayed Waveguide Grating

Zhang, Shengrui; Yin, Yuexin; Lv, Zi-Yue; Gao, Dingshan; Wang, Xibin

doi:10.3390/polym12030629

Cited by 4 publications

(2 citation statements)

References 28 publications

(26 reference statements)

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“…For analyzing the performances of our presented multi SW wavelength demultiplexer, crosstalk (Equation (8)) [ 27 ] and loss (Equation (9)) were calculated to observe the ratio between a desirable and undesirable operated wavelength in a given port and the power losses respectively.

where P n is the power transmission for the suitable n-port, and P m is the interference power transmission from the other ports.…”

Section: Theory and Designmentioning

confidence: 99%

A Four Green TM/Red TE Demultiplexer Based on Multi Slot-Waveguide Structures

Malka

2020

Materials

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A four green transverse magnetic (TM)/red transverse electric (TE) light wavelength demultiplexer device, based on multi slot-waveguide (SW) structures is demonstrated. The device aims to demultiplex wavelengths in the green/red light range with wavelengths of 530, 540, 550, and 560 nm; 630, 640, 650, and 660 nm. This means that the device functions as a 1 × 4 demultiplexer for each polarization mode (TE/TM). The controlling of the light switching between two closer segment SWs under the TM/TE polarization mode was studied by designing a suitable SW structure and setting the right segment length to fit the coupling lengths of the operating wavelengths. The device is composed of six-segment SW units and six S-bends (SB) SW. The key SW and SB parameters were optimized and determined by a full vectorial beam propagation method (FV-BPM). Results show power losses better than 0.138 dB, crosstalk better than −21.14 dB, and an optical spectrum smaller than 9.39 nm, with an overall compact size of 104.5 µm. The device can be integrated in wavelength division multiplexing (WDM) for increasing data bit rate in a visible light communication (VLC) system.

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where P n is the power transmission for the suitable n-port, and P m is the interference power transmission from the other ports.…”

Section: Theory and Designmentioning

confidence: 99%

A Four Green TM/Red TE Demultiplexer Based on Multi Slot-Waveguide Structures

Malka

2020

Materials

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“…Gratings are widely used in many fields due to their special periodic structure. [1][2][3] With its unique characteristics of beam splitting, polarization, dispersion, absorption, and phase matching, gratings occupy an important position in optical communications, [4,5] wavelength division multiplexing, [6][7][8][9] photoelectric sensors, [10][11][12][13][14] liquid crystal displays, [15][16][17] and optical signal acquisition and processing. [18][19][20] The absorber can achieve single-band and multi-band absorption with different structural designs.…”

Section: Introductionmentioning

confidence: 99%

Using Periodic Trapezoidal Ag Strips and Silicon Dioxide Slab for Polarization-Independent Narrowband Absorber

Fu¹,

Wang²

2022

Eng. Sci.

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This paper proposes a perfect electromagnetic absorber composed of a trapezoidal silver metal-dielectric array and a doublelayer base layer. Based on the finite element method, the absorber achieves an absorption efficiency in the near-infrared band of 99.91% under transverse-electric (TE) polarization, and 93.40% under transverse-magnetic (TM) polarization. And the accuracy of this calculation result is verified by the finite difference time domain method. By analyzing the distribution of electric field intensity under other parameters, the mechanism of the structure parameters to affect the absorption efficiency is studied. Finally, the manufacturing tolerance of each structural parameter is calculated when the absorption efficiency is above 90%. Trapezoidal perfect narrow-band absorber can be applied in optical sensor and optical detection.

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