Enhancement the performance of an electro-optic switch by analysis the effect of tensile stress, axial and radial strain

Sadeq Adnan Hbeeb

doi:10.24237/djes.2018.11109

Authors

Sadeq Adnan Hbeeb
Sadeq.Hbeeb@yahoo.com
Communication Engineering Department, Engineering College, University of Diyala, Iraq

Keywords:

Laser source, Electro optic switch, tensile stress sensor, axial and radial strain sensor

Abstract

This research presents a technique of an electro optic effect for suggestion model and it optimizes implementation of an electro optics switch using Mat lab simulation program (10). this technique includes design a mathematical model for analysis the effect of tensile stress(ty), axial (tz)and radial (tx)strain on the performance evaluation of an electro optic switch also, it analysis an effect the change of length L and width w of arm of switch. Finally, an active switch optimizes, using the analytical model and considers important device in the modern optical communication system.

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References

[[1]. Chuan-Tao Zheng, Chun-Sheng Ma, Xin Yan, Xian-Yin Wang, Da-Ming Zhang, Design and analysis of a polymer Mach- Zehnder interferometer electro-optic switch over a wide spectrum of 110 nm, Optical Engineering 48(5), 054601, May (2009).

[[2]. Q. Wang and J. P. Yao, “A high speed 2x2 electro-optic switch using a polarization modulator,” Opt. Express 15(25), 16500–16505 (2007).

[[3]. H. Muller, S. W. Chiow, S. Herrmann, and S. Chu, Nanosecond electro-optical switching with a repetition rate above 20 MHz, Rev. Sci. Instrum. 78(12), 124702 (2007).

[[4]. E. Sarailou, A. Gharavi, S. Javadpour, and V. Shkunov, Grating based electro-optic switch with azo nonlinear optical polymers, Appl. Phys. Lett. 89(17), 171114 (2006).

[[5]. Y. Tanushi and S. Yokoyama, Design and simulation of ring resonator optical switches using electro-optic materials, Jpn. J. Appl. Phys., Part 1 45(4B), 3493–3497 (2006).

[[6]. Matthew Wade Puckett, Generating, Enhancing, and Leveraging Nonlinear and Electro-Optic Effects in Silicon- Based Waveguides, Doctor of Philosophy in Electrical Engineering (Photonics), university of California, san diego, 2016.

[[7]. H. Jung, 2x2, 1x4 Ti:LiNbO3 digital optical switches, Opt. Eng. 6(3)

[[8]. K. Suzuki, T. Yamada, M. Ishii, T. Shibata, and S. Mino, High-speed optical switch based on generalized Mach-Zehnder interferometer with hybrid configuration of silica-based PLC and lithium niobate phase-shifter array,” IEEE Photonics Technol. Lett. 19(9–12), 674–676 (2007).

[[9]. Y. Tian, X. S. Xiao, S. M. Gao, and C. X. Yang, All-optical switch based on two-pump four-wave mixing in fibers without a frequency shift, Appl. Opt. 46(23), 5588–5592 (2007).

[[10]. Y. Y. Lin, S. T. Lin, G. W. Chang, A. C. Chiang, Y. C. Huang, and Y. H. Chen, Electro-optic periodically poled lithium niobate Bragg modulator as a laser Q- switch, Opt. Lett. 32(5), 545–547 (2007).

[[11]. A. Gardelein, T. S. Le, E. Tanguy, N. Breuil,, and T. Razban- Haghighi, Passive electro-optic antenna using polymer material, Electron. Lett. 43(9), 489–491 (2007).

R. Swamy, H. Rajagopalan, P. Vippa, M. Thakur, and A. Sen, Quadratic electro-optic effect in a nano-optical material based on the nonconjugated conductive polymer, poly_ethylenepyrrolediyl_ derivative, Solid State Commun. 143(11)12, (519)521 (2007).

. H. Rajagopalan, P. Vippa, and M. Thakur, Quadratic electro-optic effect in a nano-optical material based on the nonconjugated conductive polymer, poly_beta-pinene, Appl. Phys. Lett. 88(3), 033109 (2006).

. X. X. Deng, P. P. Xiao, X. Zheng, Z. Q. Cao, Q. S. Shen, K. Zhu, H. G. Li, W. Wei, S. X. Xie, and Z. J. Zhang, An electro-optic polymer modulator based on the free-space coupling technique, J. Opt. A, Pure Appl. Opt. 10(1), 015305 (2008).

. Alexandar Davis Dupuy, Processing and Properties of High Performance Lead Free Electro-Optic Ceramics, Doctor of Philosophy in Mechanical Engineering, university of California riverside, August, 2016.

. ESMAEL .H .M YAHYA MACH-ZEHNDER INTERFEROMETER, MACH- ZEHNDER INTERFOMETER SWITCH, Master of Engineering(ElectricalElectronic&Telecommunication)Faculty of Electrical Engineering University Technology Malaysia , APRIL, 2007.

. Deepak Venkatesh Simili, NANOPHOTONIC SILICON ELECTRO-OPTIC SWITCH, the degree of Master of Applied Science at Dalhousie University Halifax, Nova Scotia, August (2012).

. Rajdeep Gautam, Silicon Microring Resonator Loaded Mach- Zehnder Interferometer for Low Power Optical Modulation, Switching and Bio-Sensing" Department of Physics, Electrical & Computer Engineering, Doctoral Thesis at Yokohama National University, March, 2014.

. Mark R. Woolston, FAST ELECTRONIC DRIVER FOR OPTICAL SWITCHES Department of Electrical and Computer Engineering,The Degree of Master of Science, Colorado State University, Spring, 2012.

. Yufei Xing, Low power optical switching based on slot waveguide infiltrated with liquid crystal European Master of Science in Photonics, Ghent University, (2013).

. Wei-Chih Wang, Phase modulation" Southern Taiwan University of Technology.

. D.D. Johnson MatSE 280: Introduction to Engineering Materials, (2010) .