Session Index

Optical Waveguides and Communications

Poster Session III
Friday, Dec. 8, 2017  12:30-14:00
Presider: -
Room: International Research Building 5F
Paper No.  2017-FRI-P0203-P001
Chien-Kai Lan Optical Single-Sideband Carrier-Less Amplitude Phase Modulation Based on a Cascaded DML/EAM
Chien-Kai Lan;Yu-Hsin Chiu;Chia-Chien Wei

For the first time, this paper presents an IM/DD scheme to generate single-sideband (SSB) single-carrier carrier-less amplitude phase (CAP) signals based on a cascaded DML/EAM. The experiment successfully demonstrates the fading-free transmission of 3.5-GBaud SSB 16-CAP signal over 100-km SMF

Paper No.  2017-FRI-P0203-P002
LIN YU ZHENG 100 Gb/s Optical Receiver Module with TO-can type ROSAs for 10-km SMF CWDM Transmissions
LIN YU ZHENG;Shih Tien Tsorng;Jou Jau Ji

Using the 4x25Gb/s ROSAs, a 100Gb/s CWDM optical receiver module was developed. The performances of the ROSA for 10-km SMF transmissions were tested at 1270-nm, 1290-nm, 1310-nm, and 1330-nm wavelengths. After 10-km SMF transmission for the four wavelengths, the sensitivities of receiver were -3.9-dBm, -5.5-dBm, -5.5-dBm, and -5.2-dBm, respectively.

Paper No.  2017-FRI-P0203-P003
Chuan-Yu Liao Low-Cost 100-Gbps Coarse Wavelength Division Multiplexing Optical Transmitter Module Using Coaxial DFB Laser TOSA
Chuan-Yu Liao;Jau-Ji Jou;Tien-Tsorng Shih

A 100Gbps coarse wavelength division multiplexing optical transmitter module was designed using 1270nm, 1290nm, 1310nm, and 1330nm coaxial distributed feedback laser transmitter optical subassemblies. The eye diagrams of the module were measured, and the rise time, falling time, jitter, and mask margin were 14.1ps, 23.5ps, 15.7ps, and 14.7%, respectively.

Paper No.  2017-FRI-P0203-P004
Silvano Donati Integrated In-Cavity Phase Modulator for DP-QPSK Transmitters
Silvano Donati;Hai-Han Lu;Giuseppe Martini

We propose a new scheme of in-cavity phase modulator implementing QPSK transmission, where the in-cavity process of phase-frequency-phase conversion provides phase gain, typically 5…10, up to bit-frequency of about 100 GHz. By numerical simulations based on a travelling-wave model of the cavity field we find good agreement with theory.

Paper No.  2017-FRI-P0203-P005
Yi-Lin Wu Characterization of Long-Range Surface-Plasmon-Polariton Waveguides at 785 nm
Yi-Lin Wu;Chao-Hung Lin;Wan-Shao Tsai

Long-range surface-plasmon-polariton waveguides based on gold thin-film of various stripe widths and SU-8 polymer claddings were fabricated and characterized at 785 nm. Optical properties of coupling loss, propagation loss, and guiding mode profile were analyzed using end-fire coupling and scattering loss measurement system with a camera and a power meter.

Paper No.  2017-FRI-P0203-P006
Ping-Yao Huang Numerical Study of Negative Curvature Hollow-Core Fibers with Ice-Cream-Cone Shape Capillary
Ping-Yao Huang;Hsuan-Yu Chen;Chih-Hsien Lai

We numerically investigate the influences of curvature and capillary number on the transmission loss for negative curvature hollow-core fibers having ice-cream-cone shape capillaries in the cladding.

Paper No.  2017-FRI-P0203-P007
Shi-Hong Luo Fiber Fabry-Perot interferometer anemometer based on a hot-polymer
Shi-Hong Luo;Teng-Yu Liang;Kai-Wen Liu;Cheng-Ling Lee

This work proposes the first hot-polymer fiber Fabry-Perot interferometer (HPFFPI) for sensing airflow. The HPFFPI anemometers have been experimentally evaluated for different cavity length and heating power. Experimental results demonstrate that the proposed HPFFPI responses very good performances for the airflow measurement.

Paper No.  2017-FRI-P0203-P008
Jung-Sheng Chiang Measurement of Splice Loss for Photonic Crystal Fiber
Jung-Sheng Chiang;Jr-Shian Shie;Wei-Chih Wang;Nai-Hsiang Sun;Ruyen Ro

We study the splice loss of photonic crystal fiber by experimental measurement. Splicing the two core diameters, 5μm and 10μm, photonic crystal fibers to standard single-mode fibers have demonstrated. The larger core diameter photonic crystal fiber has lower splice loss than small core diameter one.

Paper No.  2017-FRI-P0203-P009
Keh-Yi Lee Tolerance Analysis of Fabricating Biochemical Sensor Based on the 3dB-directional Couplers
Chun-Kuan Liang;Ruei-Chang Lu;Keh-Yi Lee

In this paper, the fabrication tolerances of the biochemical sensors based on the photonic 3dB-directional couplers are studied. Some numerical simulation results of the characteristics of the sensors with different fabrication errors in the structural parameters are presented for comparison and discussed.