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13:30 - 13:45
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Manuscript ID. 0090
Paper No. 2019-FRI-S0203-O001
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Chin-Hao Liu
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Short and broadband mode-division multiplexer using supersymmetric structures and shortcut to adiabaticity
Chin-Hao Liu;Shuo-Yen Tseng
We design a mode division multiplexer (MDM) with broad bandwidth, short length and high fabrication tolerance by means of exploiting the advantages of shortcuts to adiabatic (STA) passages and supersymmetric (SUSY) optical structures.
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13:45 - 14:00
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Manuscript ID. 0102
Paper No. 2019-FRI-S0203-O002
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Song-En Tsai
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A Triple-Wavelength Polarization Multiplexing Hybrid Internet/CATV/5G Fiber-FSO Convergent System
Song-En Tsai;Jing-Yan Xie;Qi-Ping Huang;Yong-Cheng Huang;Shi-Cheng Tu;Chung-Yi Li;Hai-Han Lu
A triple-wavelength polarization multiplexing hybrid Internet/CATV/5G fiber-FSO convergent system is attainably demonstrated. This demonstrated triple-wavelength polarization multiplexing fiber-FSO convergent system is promising because it can simplify system’s structure and enhance system’s overall performance simultaneously.
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14:00 - 14:15
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Manuscript ID. 0234
Paper No. 2019-FRI-S0203-O003
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RUILIN CHAO
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PNP-Type Optical Phase-Shifter with Low Power Consumption and Fast Switching Time on Silicon Photonics Foundry Platform
RUILIN CHAO
We demonstrate a novel PNP bipolar junction transistor based optical phase-shifter on Si-photonic foundry platform. It exhibits a small static power consumption for pi phase-shift (Ppi: 3mW), small driving-voltages (Vpi:0.1 V), fast switching time (rise/fall <1.19/0.6ns), and very-low power consumption (0.7mW) during dynamic operations.
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14:15 - 14:30
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Manuscript ID. 0181
Paper No. 2019-FRI-S0203-O004
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Zhen-Kai Yeh
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Fiber Bragg Grating Magnetic Field Sensor
Zhen-Kai Yeh;Wei-Xiang Hong;Hung-Ying Chang;Wen-Fung Liu;Cheng-Yu Lin
This paper proposed a novel magnetic field sensor based on a fiber Bragg grating (FBG). A silicone rubber thin film is coated on the FBG and then to fix it on a special packaging design. The magnetic field pushes or pulls the thin film to cause Bragg wavelength shift.
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14:30 - 14:45
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Manuscript ID. 0101
Paper No. 2019-FRI-S0203-O005
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Yong-Cheng Huang
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100 Gb/s Two-Channel SDM-Based FSO-UWOC Integrated System
Yong-Cheng Huang;Shi-Cheng Tu;Jing-Yan Xie;Song-En Tsai;Chung-Yi Li;Hai-Han Lu
A 100-Gb/s two-channel SDM-based FSO-UWOC integrated system exploiting 405/450 nm blue-light LDs with two-stage light injection and optoelectronic feedback techniques is proposed. Such demonstrated FSO-UWOC integration is a promising one to realize optical-based free-space/underwater communications.
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14:45 - 15:00
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Manuscript ID. 0412
Paper No. 2019-FRI-S0203-O006
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Huai-Yung Wang
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Dual-mode VCSEL Based 28-GHz MMWoF GFDM at 30 Gbit/s for Beyond 5G
Huai-Yung Wang;Gong-Ru Lin
Weak injection controlled dual-mode VCSEL is proposed for a LO-free MMWoF link 25-km SMF transmission. The downstream 64-QAM-GFDM data at 30 Gbit/s provides SNR of 21.12 dB and BER of 3.8E-3, and the heterodyned 28-GHz MMW carrier with CNR of 45 dB can transmit the 4-QAM-GFDM at 8 Gbit/s.
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15:00 - 15:15
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Manuscript ID. 0408
Paper No. 2019-FRI-S0203-O007
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Che-Chu Hsieh
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Molecular sensing based on the evanescent field of plastic wire waveguide
Che-Chu Hsieh;Wan-Ling Tseng;Borwen You;Ja-Yu Lu
Minute amounts of particulate matters are experimentally recognized by the evanescent field of a terahertz plastic-wire waveguide. The corresponding sensitivities of dielectric cores with and without circular symmetry are investigated and finally integrated with a nano-porous membrane as the sensing configuration. The detection limit on protein molecules approximates 18 picomoles/mm2.
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