Bilkent Üniversitesi Nanoteknoloji Araştırma Merkezi (NANOTAM) ve Gazi Üniversitesi
Thanks
NANOTAM'da 10. senedir mühendis olarak görev yapmaktayım. 5 senedir sürdürdüğüm doktora çalışmalarımda beni teknik açıdan destekleyen, bana her türlü imkanı sağlayan, motive eden Nanotam'a, ayrıca 5 sene boyunca beni teknik açıdan yönlendiren, ilerlememi sağlayan, beni motive eden tez danışmanım'a ve Gazi Üniversitesine teşekkürlerimi sunuyorum.
References
Alvarado, R., Barlett, M., Beski, R., Isaza, S., & Li, C. (2013). Analysis of the thermo-mechanical reliability of an SMT attachment. (E-project-042513-011426) Project, Worcester Polytechnic Institute.
Barbagallo, C., Malgioglio, L. G., Petrone, G., & Cammarata, G. (2015). Thermo-mechanical analysis of a multi-chip power module. Conference on Thermal Energy Systems: Production, Storage, Utilization and the Environment.
Filatov, V. Y., Kukaev, S. A., Shalymov, V. E., & Venediktov, Y. V. (2016). Multiphysical simulations of passive ring cavities. Proceedings of SPIE, Optical Sensing and Detection IV, 9899, 98992X. doi:10.1117/12.2230223
John, F. (1997). Integrated optics. Industrial Applications of Lasers. Science Direct. Second Edition.
Lenner, M., Yang, L., Frank, A., & Bohnert, K. (2017). Long-term reliability of fiber-optic sensor components in harsh industrial environments. Advanced Photonics Congress. doi:10.1364/SENSORS.2017.SeW1E.3
Liu, J., Zhang, C., Zheng, Y., Song, J., Gao, F., & Yang, D. (2019). Suppression of nonlinear residual intensity modulation in the multifunction integrated optic circuit for fiber-optic gyroscopes. Journal of Lightwave Technology, 38(6), 1572-1579. doi:10.1109/JLT.2020.2968478
Nikishkov, G. P. (2004). Introduction to the finite element method. [Lecture Notes] University of Aizu.
Petrone, G., Barbagallo, C., & Scionti, M. (2015). Thermo-mechanical analysis and fatigue life prediction for an electronic surface-mount device (SMD). Proceedings of COMSOL Conference.
Richter, P. (1989). Integrated optics: technology, devices and applications. Periodica Polytechnica Chemical Engineering, 34(1-3), 205-212.
Suchoski, P.G., & Boivin, G.R. (1992). Reliability and accelerated aging of LiNbO3 integrated optic fiber gyro circuits. Fiber Optic and Laser Sensors X, 1795, 38-47. doi:10.1117/12.141273
Tripathi, U.S., Dixit, N., Kaul, A. N., & Gupta, A.K. (2007). Multifunction integrated optic chip for FOG. Proceedings of the National Conference on Advances in Sensors for Aerospace Applications, Hyderabad.
Wooten, E.L., Kissa, M.K., Yi-Yan, A., Murphy, J.E., Lafaw, A.D., Hallemeier, F.P., Maack, D., Attanasio, V.D., Fritz, J.D., McBrien, J.G., & Bossi, E. D. (2000). A review of lithium niobate modulators for fiber-optic communications systems. IEEE Journal of Selected Topics In Quantum Electronics, 6(1), 69-82. doi:10.1109/2944.826874
Yang, J., Yuan, Y., Zhou, A., Cai, J., Li, C., Yan, D., Huang, S., Peng, F., Wu, B., Zhang, Y., Liu, Z., & Yuan, L. (2014). Full evaluation of polarization characteristics of the multifunctional integrated optic chip with high accuracy. Journal of Lightwave Technology, 32(22), 3641-3650. doi:10.1109/JLT.2014.2342753
Yao, J., Li, K., Li, B., Wang, C., Kan, C., She, X., & Shu, X. (2018). Study of wavelength temperature stability of multifunctional integrated optical chips applied on fiber-optic gyroscopes. Journal of Lightwave Technology, 36(23), 5528-5535. doi:10.1109/JLT.2018.2875795
Zhang, G. (2012). Orientation of piezoelectric crystals and acoustic wave propagation. Proceedings of Comsol Conference.
An integrated optical device was modeled in the simulation environment via Comsol software. Model implementation, meshing analysis, the definition of material parameters, analyze and module type was introduced, respectively. At the end of this paper; it was understood that the connection of the bodies with different thermal expansion coefficients causes thermal stress accumulation and deformation. The acquired results reveal that fiber-based components can be analyzed with the contribution of the simulation interface. The literature researches were examined in detail and it was found that no study discusses the modeling of the full structure of the fiber optic integrated optic device. So; this study is crucial because it explains how to model an integrated optic device via simulations and leads the researchers about how to make complex meshing analysis in the presence of thin epoxy layers.
Alvarado, R., Barlett, M., Beski, R., Isaza, S., & Li, C. (2013). Analysis of the thermo-mechanical reliability of an SMT attachment. (E-project-042513-011426) Project, Worcester Polytechnic Institute.
Barbagallo, C., Malgioglio, L. G., Petrone, G., & Cammarata, G. (2015). Thermo-mechanical analysis of a multi-chip power module. Conference on Thermal Energy Systems: Production, Storage, Utilization and the Environment.
Filatov, V. Y., Kukaev, S. A., Shalymov, V. E., & Venediktov, Y. V. (2016). Multiphysical simulations of passive ring cavities. Proceedings of SPIE, Optical Sensing and Detection IV, 9899, 98992X. doi:10.1117/12.2230223
John, F. (1997). Integrated optics. Industrial Applications of Lasers. Science Direct. Second Edition.
Lenner, M., Yang, L., Frank, A., & Bohnert, K. (2017). Long-term reliability of fiber-optic sensor components in harsh industrial environments. Advanced Photonics Congress. doi:10.1364/SENSORS.2017.SeW1E.3
Liu, J., Zhang, C., Zheng, Y., Song, J., Gao, F., & Yang, D. (2019). Suppression of nonlinear residual intensity modulation in the multifunction integrated optic circuit for fiber-optic gyroscopes. Journal of Lightwave Technology, 38(6), 1572-1579. doi:10.1109/JLT.2020.2968478
Nikishkov, G. P. (2004). Introduction to the finite element method. [Lecture Notes] University of Aizu.
Petrone, G., Barbagallo, C., & Scionti, M. (2015). Thermo-mechanical analysis and fatigue life prediction for an electronic surface-mount device (SMD). Proceedings of COMSOL Conference.
Richter, P. (1989). Integrated optics: technology, devices and applications. Periodica Polytechnica Chemical Engineering, 34(1-3), 205-212.
Suchoski, P.G., & Boivin, G.R. (1992). Reliability and accelerated aging of LiNbO3 integrated optic fiber gyro circuits. Fiber Optic and Laser Sensors X, 1795, 38-47. doi:10.1117/12.141273
Tripathi, U.S., Dixit, N., Kaul, A. N., & Gupta, A.K. (2007). Multifunction integrated optic chip for FOG. Proceedings of the National Conference on Advances in Sensors for Aerospace Applications, Hyderabad.
Wooten, E.L., Kissa, M.K., Yi-Yan, A., Murphy, J.E., Lafaw, A.D., Hallemeier, F.P., Maack, D., Attanasio, V.D., Fritz, J.D., McBrien, J.G., & Bossi, E. D. (2000). A review of lithium niobate modulators for fiber-optic communications systems. IEEE Journal of Selected Topics In Quantum Electronics, 6(1), 69-82. doi:10.1109/2944.826874
Yang, J., Yuan, Y., Zhou, A., Cai, J., Li, C., Yan, D., Huang, S., Peng, F., Wu, B., Zhang, Y., Liu, Z., & Yuan, L. (2014). Full evaluation of polarization characteristics of the multifunctional integrated optic chip with high accuracy. Journal of Lightwave Technology, 32(22), 3641-3650. doi:10.1109/JLT.2014.2342753
Yao, J., Li, K., Li, B., Wang, C., Kan, C., She, X., & Shu, X. (2018). Study of wavelength temperature stability of multifunctional integrated optical chips applied on fiber-optic gyroscopes. Journal of Lightwave Technology, 36(23), 5528-5535. doi:10.1109/JLT.2018.2875795
Zhang, G. (2012). Orientation of piezoelectric crystals and acoustic wave propagation. Proceedings of Comsol Conference.
Dönertaş, S., Gökkavas, M., Özbay, E., Orhan, E. (2021). Case Study for Thermo Mechanical Performance of an Integrated Optic Device via Equation-Based Modelling. Gazi University Journal of Science Part A: Engineering and Innovation, 8(1), 135-145.