Faculty

Chen-Wen Tarn Professor
photo
Position
Professor
Education
Ph.D.,Electrical Engineering, Syracuse University 
E-mail
cwtarn@mail.ntust.edu.tw
Room
IB-1209
Office hour
Mondays/ Wedsesdays 10:00-11:30 AM
Telephone
02-27303619
FAX
02-27376424
Homepage
Laboratory
Major Field
Optical Communications, Optical Engineering, Diffractive Optics
Course

Record
2009.2
~
迄今 Professor, Graduate Institute of Electro-Optical Engineering/Department of Electronic Engineering, National Taiwan University of Science and Technology
2006.7
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2009.7 Chairman, Taiwan Internet Association
2004.2
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2008.10 President, Koos Broadband Telecom Inc.
2004.2
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2008.10 Executive Vice President, Gigamedia Limited.
1999.9
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2004.1 ]Professor, Department of Electronic Engineering, National Taiwan University of Science and Technology
1993.9
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1999.8 Associate Professor, Department of Electronic Engineering, National Taiwan University of Science and Technolog
1991.9
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1993.8 Assistant Professor, Department of Electrical Enginnering, University of Alabama in Huntsville
Research
Honor & Awards
2007
譚昌文et al, 光纖通信網路, 五南出版社,教育部顧問室評選為優良教科書

Research

Research Achievement
Journal
[1] I-Ju Chen, Chang-Chia Chi and Chen-Wen Tarn, "Low cost and high performance GPON, GEPON and RFoG optical network pentaplexer module design using diffractive grating approach," Optical Fiber Technology, Vol. 27, pp. 41-45, Jan. 2016.
[2] I-Ju Chen and Chen-Wen Tarn, “A 2D/3D Switchable Autostereoscopic Display System,”Optik - International Journal for Light and Electron Optics, 126, 4061-4065, 2015.
[3] Chen-Wen Tarn,Chang-Chia Chi, Hong-Mao Lin and Huang-Liang Lin, "Cost-effective and monitoring-active technique for TDM-passive optical networks",Optical Fiber Technology 20, pp. 434-441, June, 2014
[4] Bao-Jeng Tseng and Chen-Wen Tarn, “A real-time polarization mode dispersion monitoring system for a multiple-EDFA, DWDM optical fiber transmission by ASE modulation techniques,” Applied Optics, V48, pp. 92-97, 2009.
[5] Bao-Jang Tseng and Chen-Wen Tarn, “The Polarization Mode Dispersion Effect of an Acousto-Optic Tunable Filter,” Journal of Optical Society of America, A, 25(2), pp. 335-347, 2008.
[6] Bao-Jang Tseng and Chen-Wen Tarn, “Adaptive, On-Line Polarization Mode Dispersion Monitoring Technique using Acousto-Optic Tunable Filters,” Optical Engineering, 45(11), pp. 11502-11507, 2006
[7] Jian-Jyh Kao, Hsin-Ting Wu, and Chen-Wen Tarn, “Theoretical and experimental studies of polarization mode dispersion of an electro-optic Mach-Zehnder modulator,” Applied Optics, 44, pp. 5422-5428, 2005.
[8] R. S. Huang, C. W. Tarn, P. P. Banerjee, and D. Cao, “Laser beam profile deformation effect during the Bragg acousto-optic interaction: a non-paraxial approximation, ” Optical Engineering, 38, pp. 1122-1126. 1999.
[9] C. W. Tarn, “Spatial coherence property of a laser beam during acousto-optic interaction,” Journal of Optical Society of America, A, 16, pp.1395-1401, 1999
[10] C. W. Tarn and H. B. Shin, “Theoretical analysis of a hybrid AM-VSB/QAM SCM lightwave system with adjustable pre-clipping levels,” IEEE Journal of Lightwave Technology, 17, pp.2219-2224, 1999.
[11] C. N. Chang, H.K. Teng, and C.W. Tarn, “A study of a Sagnac interference fiber optic sensor for both AC and DC electric currents,” Journal of Technology, 13, pp. 427-433, 1998
[12] C. W. Tarn, “Gaussian-beam profiles deformation via anisotropic photorefractive gratings formed by diffusive, photovoltaic, and drift mechanisms: a system transfer function approach,” Optical Engineering, 37, pp. 229-236, 1998
[13] C. C. Wang and C. W. Tarn, “Theoretical and experimental analysis of the near-Bragg acousto-optic effect,” Optical Engineering, 37, pp. 208-214, 1998
[14] C. N. Chang and C. W. Tarn, “Open loop fiber-optic Mach-Zehnder interferometric sensor with electronic phase shift nulling signal processor for DC measurands,” Proceedings of NSC-Part A; Physical Science and Engineering, 22, pp. 55-60, 1998.
[15] C.W. Tarn, R. S. Huang, and C.-W. Hsieh, “Polarization changing and beam profile deformation of light during the isotropic, Raman-Nath acoustooptic interaction,” Applied Optics, 37, pp. 7496-7503, 1998.
[16] C.W. Tarn, “Polarization changing and beam profile deformation effects of acoustooptics,” invited paper, Proceedings of the Society of Photo-Optical Instrumentation Engineers, 3581, pp. 70-80, 1998
[17] C. W. Tarn, “Spatial Fourier transform approach to the study of the polarization changing and beam profile deformation of light beams during interaction of light during Bragg acousto-optic interaction with longitudinal and shear ultrasonic wave in isotropic media,” Journal of Optical Society of America, A, 14, pp. 2231-2242, 1997.
[18] C. W. Tarn and R. S. Huang, “General formalism for Bragg acousto-optic interaction beyond the paraxial approximation,” Journal of Optical Society of America, A, 14, pp. 3046-3056, 1997.
[19] C. W. Tarn,, “Polarization effect of isotropic, Raman-Nath acoustooptic devices,” International Journal of Optoelectronics, 11, pp. 389-395, 1997.
[20] C. W. Tarn and C. N. Chang, “Polarization changing and beam profile deformation of light during the acoustooptic interaction in isotropic media,” Optical and Quantum Electronics, special issue on the photonics research in Taiwan, R. O. C., 28, pp. 1427-1442, 1996
Conference
Patent
[1] Chang-Chia Chi, Chen-Wen Tarn, and I-Ju Chen, "Bidirectional pentaplex system and method, U.S. Patent, NO.: US 9264135 A1, 2016.02.16
[2] Chang-Chia Chi, Chen-Wen Tarn, I-Ju Chen, "?向五?耦合收?系?及其方法" CN Patent, No.:CN 104836618 A, 2015.08.12
[3]
[4] Chang-Chia Chi,Chen-Wen Tarn,Hong-Mao Lin,"Active Network Monitoring System and Method Thereof," U.S. Patent,NO.:US 20140119724 A1, May 1,2014
[5] 紀長嘉, 譚昌文, 林宏懋: "低成本之主動式PON網路監控系統" R.O.C. Patent: NO.: I502906, 2014.0516
[6]
Book
[1]
Other

Project
Title Total Amount Excution Duration Client
-

Student
Ph.D
105
Active Acousto-Optic Lens for 2D/3D Switchable Autostereoscopic Display System
I-Ju Chen
102
Design a Cost-Effective and Monitoring-Active System for TDM-Passive Optical Networks
Chi, Chang-Chia
95
On-Line Polarization Mode Dispersion Monitoring and Mitigation Technique using Acousto-Optic Tunable Filter
Bao-Jeng Tseng
94
The Signal Quality Evaluation of an External Modulated Lightwave Communication System under the Influence of Polarization Mode Dispersion
Jian-Jyh Kao
89
Polarization Changing and Beam Profile Deformation of Light Wave During Acousto-Optic and Magneto-Optic Interactions
Ray S. Huang
M.S
103
A Plastic Optical Fiber-based Polarization Scrambler
He, Jheng-Hong
103
A Visible Light Emitting Diode Communication Module with Multiplexing Characterization
Yang, Meng-Xin
103
In-line Optics Fiber Chromatic Dispersion Monitoring System using a Time-Domain Method
Huang, Zheng-Yi
103
A Design of a Optical Fiber Network Fault Measurement Module Based on Coherent Detection
Chen, Pei-Chi
102
The Diffusion of Light Through Biological Tissues
Diah Kusuma Wardhani
102
A Single-Light-Emitting-Diode Transceiver Module with Automatics Switchable Transmitting/Receiving Function
Lin, Huang-Liang
101
A Single-Laser-Diode Transceiver with Automatic Switchable Receiving/Transmitting Functions
Lin, Hong-Mao
100
A Novel TDM-PON Monitoring System Using the Modulated ASE Noise as the Light Source
Yu-Ju Chen
95
Next Generation FTTx Solutions using PON and Gigabit Ethernet Technologies based on the CATV Fiber Infrastructure
朱志明
93
The Bit Error Rate Evaluation of an Electrooptic Modulator under the Influence of Polarization Mode Dispersion
林男穎
93
An Adjustable Second-Order Polarization -Mode Dispersion Compensation Technique
林儒呈
93
The Polarization-Mode Dispersion Mitigation Technique Using an Acousto-Optic Tunable Filter Approach
買昱鈞
93
Theoretical and Experimental Analysis of the State of Polarization Changing and Differential Group Delay of Acousto-Optic Tunable Filters
吳俊賢
93
On-Line Polarization-Mode Dispersion Measurement
陳瑞育
92
Polarization Mode Dispersion Effect of a Fiber Bragg Grating
鄭宇竣
90
Theoretical and Experimental Analysis of Polarization Mode Dispersion in an Erbium-Doped Fiber Amplifier
洪豪良
90
Theoretical and Experimental Analysis of Polarization Mode Dispersion in an Electro-optic Modulator
吳欣庭
89
A Double-Transmission-Capacity Optical Transmitter by using a Mach-Zehnder External Modulator with Different Signals Modulated under Two Orthogonal Polarrization States.
李豪隄
89
The Design and Analysis of a New IP/DWDM Architecture with Header and Payload Carried under Different Polarization States
紀長嘉
89
Theoretical and Experimental Analysis of Polarization Mode Dispersion in an Acousto-Optic Tunable Filter
林義雄
87
The BER Performance and Bandwidth Efficiency of Hybrid AM-VSB/DWMT SCM Lightwave Transmission Systems
劉信億
86
The Linewidth Characteristics of an Apodized Acousto-Optic Tunable Filter
王正明
86
The Analysis of Optimum Pre-clipping Level in Hybrid AM-VSB/QAM SCM Lightwave Systems
辛宏賓
86
The Study of Fundamental Second-Order and Third-Order Nonlinear Distortion in Semiconductor Lasers
曾保彰
85
A Rigorous Formalism for Optical Directional Couplers beyond Weak Coupling and Small Phase Mismatch
謝禎徽
84
A Q-Parameter Approach to the Designing of Confocal Microscope System
鍾安華
84
A Spatial Fourier Transform Approach to the Bragg Acousto-Optic Interaction beyond the Slowly Varying Envelope Approximation
黃瑞書
84
The Study of the Near-Bragg Acousto-Optic Interaction
王正忠
83
以空間傅立葉轉換的方法所建立的半導體雷射放大器模型
鄧志剛
Student's Project
Student's Honor