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The review part of the paper addresses analytical modeling in fiber optics engineering. Attributes and significance of predictive modeling are indicated and discussed. The review is based mostly on the author’s research conducted at Bell Laboratories, Physical Sciences and Engineering Research Division, Murray Hill, NJ, USA, during his tenure with Bell Labs for about twenty years, and, to a lesser extent, on his recent work in the field. The addressed topics include, but are not limited to, the following major fields: bare fibers; jacketed and dual-coated fibers; coated fibers experiencing thermal and/or mechanical loading; fibers soldered into ferrules or adhesively bonded into capillaries; roles of geometric and material non-linearity; dynamic response to shocks and vibrations; as well as possible applications of nano-materials in new generations of coating and cladding systems.

The extension part is concerned with a new, fruitful and challenging direction in optical engineering- probabilistic design for reliability (PDfR) of opto-electronic and photonic systems, including fiber optics engineering. The rationale behind the PDfR concept is that the difference between a highly reliable optical fiber system and an insufficiently reliable one is “merely” in the level of the never-zero probability of failure. It is the author’s belief that when the operational reliability of an optical fiber system and product is imperative, the ability to predict, quantify, assure and, if possible and appropriate, even specify this reliability is highly desirable.

E. Suhir, “Structural Analysis in Microelectronics and Fiber Optics”, Van-Nostrand, New York, 1991.

E. Suhir, R.C. Cammarata, D.D.L. Chung, M. Jono, “Mechanical Behavior of Materials and Structures in Microelectronics”, MRS Symposia Proceedings, vol.226, 1991.

E. Suhir, “Structural Analysis in Fiber Optics”, in J. Menon, ed., “Trends in Lightwave Technology”, Council of Scientific Information, India, 1995.

E. Suhir, M. Fukuda, and C.R. Kurkjian, eds., “Reliability of Photonic Materials and Structures”, MRS Symposia Proceedings, vol. 531, 1998.

E. Suhir, “The Future of Microelectronics and Photonics and the Role of Mechanics and Materials”, ASME J. Electr. Pack., March 1998.

E. Suhir, “Fiber Optics Structural Mechanics-Brief Review”, Editor’s Note, ASME J. Electr. Pack., Sept. 1998.

E. Suhir, “Microelectronics and Photonics – the Future”, Microelectronics Journal, vol.31, No.11-12, 2000.

Driessen, R. G. Baets, J. G. McInerney, and E. Suhir, “Laser Diodes, Optoelectronic Devices, and Heterogeneous Integration”, SPIE Press, 2003.

E. Suhir, “Microelectronic and Photonic Systems: Role of Structural Analysis”, InterPack’2005, San Francisco, July 2005.

E. Suhir, C.P. Wong, Y.C. Lee, eds. “Micro- and Opto-Electronic Materials and Structures: Physics, Mechanics, Design, Packaging, Reliability”, 2 volumes, Springer, 2008.

E. Suhir, “Optical Fiber Interconnects: Design for Reliability”, Society of Optical Engineers (SPIE), Proc. of SPIE, Vol. 7607 760717-8, 2010.

B. Welker, M. Uschitsky, E. Suhir, S. Kher, G. Bubel, “Finite Element Analysis of the Optical Fiber Structures”, in E. Suhir, ed., “Structural Analysis in Microelectronics and Fiber Optics”, Symp. Proc., ASME Press, 1996.

E. Suhir, “Modeling of the Mechanical Behavior of Microelectronic and Photonic Systems: Attributes, Merits, Shortcomings, and Interaction with Experiment”, Proc. 9-th Int. Congr. on Experim. Mech., Orlando, Fl., June 5-8, 2000.

E. Suhir, “Thermo-Mechanical Stress Modeling in Microelectronics and Photonics”, Electronic Cooling, vol.7, No.4, 2001.

E. Suhir, “Modeling of Thermal Stress in Microelectronic and Photonic Structures: Role, Attributes, Challenges and Brief Review”, Special Issue, ASME Journal of Electronic Packaging, vol.125, No.2, June 2003.

E. Suhir, “Predictive Modeling is a Powerful Means to Prevent Thermal Stress Failures in Electronics and Photonics”, ChipScale Reviews, vol.15, No.4, July-August 2011.

E. Suhir, “Stress Modeling in Polymer Coated Optical Glass Fibers”, Session honoring Prof. A. Chudnovsky, 2014 ANTEC, Las Vegas, NV, April 28-May 3, 2014.

E. Suhir, “Mechanical Behavior of Materials in Microelectronic and Fiber Optic Systems: Application of Analytical Modeling-Review”, MRS Symp. Proc., vol. 226, 1991.

E. Suhir, “Analytical Stress-Strain Modeling in Photonics Engineering: Its Role, Attributes and Interaction with the Finite-Element Method”, Laser Focus World, May 2002.

E. Suhir, “Modeling of Thermal Stress in Microelectronic and Photonic Structures: Role, Attributes, Challenges and Brief Review”, Special Issue, ASME J. Electr. Packaging (JEP), vol.125, No.2, June 2003.

E. Suhir, “Analytical Thermal Stress Modeling in Physical Design for Reliability of Micro- and Opto-Electronic Systems: Role, Attributes, Challenges, Results”, in E. Suhir, CP Wong, YC Lee, eds. “Micro- and Opto-Electronic Materials and Structures: Physics, Mechanics, Design, Packaging, Reliability”, Springer, 2007.

E. Suhir, “Analytical Thermal Stress Modeling in Electronic and Photonic Systems”, ASME App. Mech. Reviews, invited paper, vol.62, No.4, 2009.

E. Suhir, “Thermal Stress Failures: Predictive Modeling Explains the Reliability Physics Behind Them”, IMAPS Advanced Microelectronics, vol.38, No.4, July/August 2011.

E. Suhir, “Bending Performance of Clamped Optical Fibers: Stresses Due to the End Off-Set”, Applied Optics, vol. 28, No. 3, February 1989.

E. Suhir, “Predicted Curvature and Stresses in an Optical Fiber Interconnect Subjected to Bending”, IEEE/OSA Journal of Light-wave Technology, Vol.14, No.2, 1996.

E. Suhir, “Bending of a Partially Coated Optical Fiber Subjected to the Ends Off-Set”, IEEE/OSA Journal of Lightwave Technology, Vol. 12, No.2, 1997.

E. Suhir, “Optical Fiber Interconnect Subjected to a Not-Very-Small Ends Off-Set: Effect of the Reactive Tension”, MRS Symposia Proceedings, vol. 531, 1998.

E. Suhir, “Bending Stress in an Optical Fiber Interconnect Experiencing Significant Ends Off-Set”, MRS Symposia Proceedings, vol. 531, 1998.

E. Suhir, “Method and Apparatus for Proof-Testing Optical Fibers”, US Patent #6,119,527, 1998.

E. Suhir, “Optical Fiber Interconnect with the Ends Offset and Axial Loading: What Could Be Done to Reduce the Tensile Stress in the Fiber?”, J. Appl. Phys., vol.88, No.7, 2000.

E. Suhir, “Method for Determining and Optimizing the Curvature of a Glass Fiber for Reducing Fiber Stress”, US Patent #6,016,377, 2000.

E. Suhir, “Method of Improving the Performance of Optical Fiber, which is Interconnected Between Two Misaligned Supports”, U.S. Patent #6,314,218, 2001.

E. Suhir, “Interconnected Optical Devices Having Enhanced Reliability”, U.S. Patent #6,327,411, 2001.

E. Suhir, “Optical Fiber Interconnects Having Offset Ends with Reduced Tensile Strength and Fabrication Method”, US Patent #6,606,434, 2003.

Suhir E., “Analysis and Optimization of the Input/Output Fiber Configuration in a Laser Package Design”, ASME Journal of Electronic Packaging, vol.117, No.4, 1995.

E. Suhir, “’Optical Glass Fiber Bent on a Cylindrical Surface”, MRS Symposia Proceedings, vol.531, 1998.

E. Suhir,“Optimized Configuration of an Optical fiber “Pigtail” Bent on a Cylindrical Surface”, in T. Winkler and A, Schubert, eds., “Materials Mechanics, Fracture Mechanics, Micromechanics” Anniversary Volume in Honor of B. Michel’s 50th Birthday, Fraunhofer IZM, Berlin, 1999.

E. Suhir, “Method for Determining and Optimizing the Curvature of a Glass Fiber for Reduced Fiber Stress”, US Patent #6,016,377, 2000.

J.B. Murgatroyd, "The Strength of Glass Fibres. Part II. The Effect of Heat Treatment on Strength", J. Soc. Glass Tech.,28, 1944.

D. Sinclair, “A Bending Method for Measurement of the Tensile Strength and Young’s Modulus of Glass Fiber”, Journal of Applied Physics, Vol.21, 1950.

Krause, J.T., L.R. Testardi, and R.N. Thurston, “Deviations FROM Linearity in the Dependence of Elongation upon Force for Fibers of Simple Glass Formers and of Glass Optical Light-guides”, Physics and Chemistry of Glasses, Vol.20, 1979.

P.W. France, Paradine, M.J., Reeve, M.H., and Newns, G.R., “Liquid Nitrogen Strength of Coated Optical Glass Fibers”, Journal of Materials Science, Vol.15, 1980.

S.F. Cowap, and S.D. Brown, “Static Fatigue Testing of a Hermetically Sealed Optical Fiber”, American Ceramic Society Bulletin, Vol.63, No.3, 1984.

M.J. Matthewson, C. R. Kurkjian and S. T. Gulati, "Strength Measurement of Optical Fibers in Bending", J. Am. Ceram. Soc. Vol.69, No.1, 1986.

J.N. McMullin, and J.E. Freeman, “On the Shape of a Bent Fiber”, IEEE/OSA J. Light-wave Techn., Vol.8, No.7, 1990.

E. Suhir, “Effect of the Nonlinear Stress-Strain Relationship on the Maximum Stress in Silica Fibers Subjected to Two-Point Bending”, Applied Optics, vol. 32, No. 9, 1993.

M. Muraoka, “The Maximum Stress in Optical Glass Fibers Under Two-Point Bending”, ASME J. Electr. Pack., vol.123, March 2000.

E. Suhir, V. Ogenko, D. Ingman, “Two-Point Bending of Coated Optical Fibers”, Proceedings of the PhoMat’2003 Conference, San-Francisco, CA, August 2003.

E. Suhir, “Stresses in Dual-Coated Optical Fibers”, ASME Journal of Applied Mechanics, Vol.55, No.10, 1988.

O.S. Gebizioglu, I.M. Plitz, “Self-Stripping of Optical Fiber Coatings in Hydrocarbon Liquids and Cable Filling Compounds”, Optical Engineering, Vol.30, No.6, 1991.

E. Devadoss, “Polymers for Optical Fiber Communication Systems”, Journal of Scientific and Industrial Research, Vol.51, No.4, 1992.

S.T. Shiue, “Thermal Stresses in Tightly Jacketed Double-Coated Optical Fibers at Low Temperature”, Journal of Applied Physics, Vol.76, No.12, 1994.

E. Suhir, “Approximate Evaluation of the Interfacial Shearing Stress in Circular Double Lap Shear Joints, with Application to Dual-Coated Optical Fibers”, Int. J. Solids and Structures, Vol.31, No.23, 1994.

P. Ostojic, “Stress Enhanced Environmental Corrosion and Lifetime Prediction Modeling in Silica Optical Fibers”, Journal of Materials Science, Vol.30, No.12, 1995.

W.W. King, and C.J. Aloisio, “Thermomechanical Mechanism for Delamination of Polymer Coatings from Optical Fibers”, ASME Journal of Electronic Packaging, Vol.119, No.2, 1997.

E. Suhir, “Thermal Stress Failures in Microelectronics and Photonics: Prediction and Prevention”, Future Circuits International, Issue #5, 1999.

E. Suhir, “Thermomechanical Stress Modeling in Microelectronics and Photonics”, Electronic Cooling, vol.7, No.4, 2001.

E. Suhir, “Polymer Coated Optical Glass Fibers: Review and Extension”, Proceedings of the POLYTRONIK’2003, Montreaux, October 21-24, 2003.

E. Suhir, “Mechanics of Coated Optical Fibers: Review and Extension”, ECTC’2005, Orlando, Florida, 2005.

E. Suhir, J. Nicolics, C. Gu, A. Bensoussan, L. Bechou, “Analytical Stress Model for the Evaluation of Thermal Stresses in a Cylindrical Tri-Material Body with Application to Optical Fibers”, J. Electrical and Control Engineering, Vol.3 No.5, December 2013.

E. Suhir, “Thermal Stress Failures in Electronics and Photonics: Physics, Modeling. Prevention”, J. Thermal Stresses, June 3, 2013.

E. Suhir, “Predicted Thermal Mismatch Stresses in a Cylindrical Bi-Material Assembly Adhesively Bonded at the Ends”, ASME J. Appl. Mech., vol.64, No. 1, 1997.

E. Suhir, “Thermal Stress in a Polymer Coated Optical Glass Fiber with a Low Modulus Coating at the Ends”, J. Mat. Res., vol. 16, No. 10, 2001.

E. Suhir, “Coated Optical Glass Fiber”, US Patent #6,647,195, 2003.

E. Suhir, “On a Paradoxical Situation Related to Bonded Joints: Could Stiffer Mid-Portions of a Compliant Attachment Result in Lower Thermal Stress?”, JSME J. Solid Mech. and Materials Engineering (JSMME), vol.3, No.7, 2009.

Katsuyama, Y. Mitsunaga, Y. Isida, and K. Ishihara, "Transmission Loss of Coated Optical Fiber At Low Temperature," Appl. Opt., No. 22, 1983.

D.C.L. Vangheluwe, "Exact Calculation of the Spring Constant in the Buckling of Optical Fibers," Appl. Opt., 23, 1984.

E. Suhir, “Effect if the Initial Curvature on the Low Temperature Microbending in Optical Fibers”, IEEE/OSA Journal of Lightwave Technology, Vol.6, No.8, 1988.

E. Suhir, “Spring Constant in the Buckling of Dual-Coated Optical Fibers”, IEEE/OSA Journal of Lightwave Technology, Vol.6, No.7, 1988.

S.T. Shiue, “Design of Double-Coated Optical Fibers to Minimize Hydrostatic-Pressure-Induced Microbending Losses”, IEEE Photonics Technology Letters, Vol.4, No.7, 1992.

S.T. Shiue, and S.B. Lee, “Thermal Stresses in Double-Coated Optical Fibers at Low Temperature”, Journal of Applied Physics, Vol.72, No.1, 1992.

S.T. Shiue, “Axial Strain-Induced Microbending Losses in Double-Coated Optical Fibers”, Journal of Applied Physics, Vol.73, No.2, 1993.

F. Cocchini, “Double-Coated Optical Fibers Undergoing Temperature Variations-The Influence of the Mechanical Behavior on the Added Transmission Losses”, Polymer Engineering and Science, Vol.34, No.5, 1994.

S.T. Shiue, “The Axial Strain-Induced Stresses in Double-Coated Optical Fibers”, Journal of the Chinese Institute of Engineers, Vol.17, No.1, 1994.

S.T. Shiue, “Thermally Induced Microbending Losses in Double-Coated Optical Fibers at Low Temperature”, Materials Chemistry and Physics, Vol.38, No.2, 1994.

E. Suhir, V. Mishkevich, J. Anderson, “How Large Should a Periodic External Load Be to Cause Appreciable Microbending Losses in a Dual-Coated Optical Fiber?”, in E. Suhir, ed., “Structural Analysis in Microelectronics and Fiber Optics”, ASME Press, 1995.

S.T. Shiue, “The Spring Constant in the Buckling of Tightly Jacketed Double-Coated Optical Fibers”, J. Appl. Phys., Vol.81, No.8, 1997.

E. Suhir, “How Long Should a Beam Specimen be in Bending Tests?”, ASME Journal of Electronic Packaging, Vol.112, No.1, 1990.

E. Suhir, “Stresses in a Coated Glass Fiber Stretched on a Capstan”, Applied Optics, Vol.29, No.18, 1990.

E. Suhir, “Can the Curvature of an Optical Glass Fiber be Different from the Curvature of Its Coating?”, International Journal of Solids and Structures, Vol.30, No.17, 1993.

E. Suhir, “Analytical Modeling of the Interfacial Shearing Stress During Pull-Out Testing of Dual-Coated Lightguide Specimens”, Applied Optics, Vol.32, No.7, 1993.

E. Suhir, “Pull Testing of a Glass Fiber Soldered into a Ferrule: How Long Should the Test Specimen Be?”, Applied Optics, Vol.33, No.19, 1994.

E. Suhir, L. Bechou, “Saint-Venant’s Principle and the Minimum Length of a Dual-Coated Optical Fiber Specimen in Reliability (Proof) Testing”, ESREF, Arcachon, France, 2013.

E. Suhir, “Elastic Stability, Free Vibrations, and Bending of Optical Glass Fibers: the Effect of the Nonlinear Stress-Strain Relationship”, Applied Optics, Vol.31, Vol.24, 1992.

S.T. Shiue, “The Hydrostatic Pressure Induced Stresses in Double-Coated Optical Fibers”, Journal of the Chinese Institute of Engineers”, Vol.17, No.4, 1994.

E. Suhir, “Coated Optical Fiber Interconnect Subjected to the Ends Offset and Axial Loading”, Int. Workshop on Reliability of Polymeric materials and Plastic Packages of IC Devices, Paris, Nov. 29-Dec.2, 1998, ASME Press, 1998.

E. Suhir, “Critical Strain and Postbuckling Stress in Polymer Coated Optical Fiber Interconnect: What Could Be Gained by Using Thicker Coating?”, Int. Workshop on Reliability of Polymeric materials and Plastic Packages of IC Devices, Paris, Nov. 29-Dec.2, 1998, ASME Press, 1998.

E. Suhir, “Elastic Stability of a Dual-Coated Optical Fiber of Finite Length”, J. Appl. Physics, vol.102, No.5, 2007.

E. Suhir, “Elastic Stability of a Dual-Coated Optical Fiber with a Stripped Off Coating at Its End”, J. Appl. Physics, vol. 102, No.4, 2007.

E. Suhir, “Lateral Compliance of a Compressed Cantilever Beam, with Application to Micro-Electronic and Fiber-Optic Structures”, J. Appl. Physics D, vol.41,No.1, 2008.

E. Suhir, “Elastic Stability of a Dual-Coated Fiber”, SPIE Paper #8621-37, Photonics West, February 2011.

E. Suhir, “Thermally Induced Stresses in an Optical Glass Fiber Soldered into a Ferrule”, IEEE/OSA Journal of Lightwave Technology, Vol.12, No.10, 1994.

E. Suhir, “Solder Materials and Joints in Fiber-Optics: Reliability Requirements and Predicted Stresses”, Proceedings of the International Symposium “Design and Reliability of Solder Joints and Solder Interconnections”, Orlando, Fl., 1997.

E. Suhir, “Elastic Stability, Free Vibrations, and Bending of Optical Glass Fibers: the Effect of the Nonlinear Stress-Strain Relationship”, Applied Optics, Vol.31, No.24, 1992.

E. Suhir, “Is the Maximum Acceleration an Adequate Criterion of the Dynamic Strength of a Structural Element in an Electronic Product?”, IEEE Transactions on Components, Packaging and Manufacturing Technology, Vol.20, No.4, 1997.

E. Suhir, “Dynamic Response of Microelectronics and Photonics Systems to Shocks and Vibrations”, INTERPack’1997 Proc., Hawaii, June 15-19, 1997.

E. Suhir, “Could Shock Tests Adequately Mimic Drop Test Conditions?”, IEEE ECTC Conference Proceedings, San-Diego, CA, May 28-31, 2002.

C.Y. Zhou, T.X. Yu, E. Suhir, “Design of Shock Table Tests to Mimic Real-Life Drop Conditions”, IEEE CPMT Transactions, vol.32, No.4, 2009.

E. Suhir, M. Vujosevic, and T. Reinikainen, “Nonlinear Dynamic Response of a “Flexible-and-Heavy” Printed Circuit Board (PCB) to an Impact Load Applied to Its Support Contour”, J. Appl. Physics, D, 42, No.4, 2009.

E. Suhir,“Linear Response to Shocks and Vibrations”, in E. Suhir, D.Steinberg and T.Yu, “Structural Dynamics of Electronic and Photonic Systems”, John Wiley, Hoboken, NJ., 2011.

E. Suhir, “Linear and Nonlinear Vibrations Caused by Periodic Impulses”. in E.Suhir, D.Steinberg and T.Yu, “Structural Dynamics of Electronic and Photonic Systems”, John Wiley, Hoboken, NJ., 2011.

E. Suhir, “Random Vibrations of Structural Elements in Electronic and Photonic Systems”, in E.Suhir, D.Steinberg and T.Yu, “Structural Dynamics of Electronic and Photonic Systems”, John Wiley, Hoboken, NJ., 2011.

C.Y. Zhou, T.X. Yu, S.W. Ricky Lee and E. Suhir, “Shock Test Methods and Test Standards for Portable Electronic Devices”, in E. Suhir, D. Steinberg and T. Yu, “Structural Dynamics of Electronic and Photonic Systems”, John Wiley, Hoboken, NJ., 2011.

E. Suhir, “Linear Response of a Single-Degree-of-Freedom System to an Impact Load: Could Shock Tests Adequately Mimic Drop Test Conditions?”, in E. Suhir, D. Steinberg and T. Yu, “Structural Dynamics of Electronic and Photonic Systems”, John Wiley, Hoboken, NJ., 2011.

E. Suhir, “Predictive Modeling of the Dynamic Response of Electronic Systems to Shocks and Vibrations”, ASME Appl. Mech. Reviews, vol. 63, No.5, March, 2011.

E. Suhir, “Structural Dynamics of Electronics Systems”, Modern Physics Letters B (MPLB), Vol. 27, No. 7, March 2013.

E. Suhir, and D. Ingman, “New Hermetic Coating for Optical Fiber Dramatically Improves Strength: New Nano-Particle Material (NPM) and NPM-Based New Generation of Optical Fiber Claddings and Coating”, US Navy Workshop, St. Louis, MO, 2003: Could Nano-Technology Make a Difference?”, Polytronic’04, Portland, OR, September 13-15, 2001.

E. Suhir, “Polymer Coated Optical Glass Fiber Reliability: Could Nano-Technology Make a Difference?”, Polytronic’04, Portland, OR, September 13-15, 2004.

E. Suhir, “New Nano-Particle Material (NPM) for Micro- and Opto-Electronic Packaging Applications”, IEEE Workshop on Advanced Packaging Materials, Irvine, March 2005.

D. Ingman and E. Suhir, “Optical Fiber with Nano-Particle Overclad”, US Patent, #7,162,138 B2, 2007.

D. Ingman and E. Suhir, “Optical Fiber with Nano-Particle Cladding”, US Patent, #7,162,137 B2, 2007.

E. Suhir, “Fiber-Optics Structural Mechanics and Nano-Technology Based New Generation of Fiber Coatings: Review and Extension”, in E. Suhir, CP Wong, YC Lee, eds. “Micro- and Opto-Electronic Materials and Structures: Physics, Mechanics, Design, Packaging, Reliability”, Springer, 2007.

E. Suhir, D. Ingman, “Highly Compliant Bonding Material and Structure for Micro- and Opto-Electronic Applications”, in E. Suhir, CP Wong, YC Lee, eds. “Micro- and Opto-Electronic Materials and Structures: Physics, Mechanics, Design, Packaging, Reliability”, Springer, 2007.

T. Mirer, ,D. Ingman, E. Suhir, “Reliability Improvement Through Nano-Particle-Material-Based Fiber Structures”, Optical Fiber Technology, v. 13, 2007.

E. Suhir, “Polymer Coating of Optical Silica Fibers, and a Nanomaterial-Based Coating System”, Keynote Presentation, Polytronic’2007, Proceedings of the International Conference on Polymeric Materials for Micro- and Opto-Electronics Applications, Tokyo, Japan, January 14-16, 2007.

D. Ingman , V. Ogenko, E. Suhir, A. Glista, “Moisture Resistant Nano-Particle Material and Its Applications”, US Patent #7,321,714B2, 2008.

E. Suhir, “Mechanical Approach to the Evaluation of the Low Temperature Threshold of Added Transmission Losses in Single-Coated Optical Fibers”, IEEE/OSA Journal of Light-wave Technology, Vol.8, No.6, 1990.

E. Suhir, “Free Vibrations of a Fused Bi-Conical Taper Lightwave Coupler”, Int. J. Solids and Structures, vol. 29, No. 24, 1992.

E. Suhir, “Vibration Frequency of a Fused Bi-Conical Taper (FBT) Lightwave Coupler”, IEEE/OSA Journal of Lightwave Technology, vol. 10, No. 7, 1992.

E. Suhir, “Predicted Stresses and Strains in Fused Bi-Conical Taper Couplers Subjected to Tension”, Applied Optics, vol. 32, No. 18, 1993.

E. Suhir, and J.J. Vuillamin, Jr., "Effects of the CTE and Young's Modulus Lateral Gradients on the Bowing of an Optical Fiber: Analytical and Finite Element Modeling", Optical Engineering, vol. 39, No. 12, 2000.

E. Suhir, “Apparatus and Method for Thermostatic Compensation of Temperature Sensitive Devices”, US Patent #6,337,932, 2002.

E. Suhir, R. Mahajan, “Are Current Qualification Practices Adequate?“, Circuit Assembly, April 2011

E. Suhir,”Accelerated Life Testing (ALT) in Microelectronics and Photonics: Its Role, Attributes, Challenges, Pitfalls, and Interaction With Qualification Tests”, ASME J. Electr. Packaging (JEP), Vol. 124, No. 3, 2002.

E. Suhir, “Failure-Oriented-Accelerated-Testing (FOAT) and Its Role in Making a Viable IC Package into a Reliable Product”, Circuits Assembly, July 2013.

E. Suhir, A. Bensoussan, J. Nicolics, L. Bechou, “Highly Accelerated Life Testing (HALT), Failure Oriented Accelerated Testing (FOAT), and Their Role in Making a Viable Device into a Reliable Product”, 2014 IEEE Aerospace Conference, Big Sky, Montana, March 2014.

E. Suhir, “Failure-Oriented-Accelerated-Testing (FOAT) and Its Role in Making a Viable Package into a Reliable Product”, SEMI-TERM 2014, San Jose, CA, March 9-13, 2014.

E. Suhir, “How to Make a Photonic Device Into a Product: Role of Accelerated Life Testing”, Keynote Address at the International Conference of Business Aspects of Microelectronic Industry, Hong-Kong, January 2003.

E. Suhir,“Reliability and Accelerated Life Testing”, Semiconductor International, February 1, 2005.

E. Suhir,“When Reliability is Imperative, Ability to Quantify It is a Must”, IMAPS Advanced Microelectronics, August 2012.

E. Suhir, "Applied Probability for Engineering and Scientists", McGraw Hill, New York, 1997.

E. Suhir, “Thermal Stress Modeling in Microelectronics and Photonics Packaging, and the Application of the Probabilistic Approach: Review and Extension”, IMAPS Int. J. of Microcircuits and Electronic Packaging, vol.23, No.2, 2000 (invited).

E. Suhir, “Probabilistic Design for Reliability”, ChipScale Reviews, vol.14, No.6, 2010.

E. Suhir, “Remaining Useful Lifetime (RUL): Probabilistic Predictive Model”, Int. J. of PHM, vol 2(2), 2011.

E. Suhir, R. Mahajan, A. Lucero, L. Bechou, “Probabilistic Design for Reliability (PDfR) and a Novel Approach to Qualification Testing (QT)”, 2012 IEEE/AIAA Aerospace Conf., Big Sky, Montana, 2012

E. Suhir, “How Long Could/Should be the Repair Time for High Availability?”, Modern Physics Letters B (MPLB), vol.27, Aug.30, 2013.

E. Suhir, “Could Electronics Reliability Be Predicted, Quantified and Assured?” Microelectronics Reliability, No. 53, April 15, 2013.

E. Suhir, “Boltzmann-Arrhenius-Zhurkov (BAZ) Model in Physics-of-Materials Problems”, Modern Physics Letters B (MPLB), vol.27, April 2013.

E. Suhir, L. Bechou, “Availability Index and Minimized Reliability Cost”, Circuit Assemblies, February 2013.

A. Bensoussan, and E. Suhir, “Design-for-Reliability (DfR) of Aerospace Electronics: Attributes and Challenges", 2013 IEEE Aerospace Conference, Big Sky, Montana, March 2013.

E. Suhir, “Assuring Aerospace Electronics and Photonics Reliability: What Could and Should Be Done Differently”, 2013 IEEE Aerospace Conference, Big Sky, Montana, March 2013.

E. Suhir, “Predicted Reliability of Aerospace Electronics: Application of Two Advanced Probabilistic Techniques”, 2013 IEEE Aerospace Conference, Big Sky, Montana, March 2013.

E. Suhir, A. Bensoussan, “Application of Multi-parametric BAZ Model in Aerospace Optoelectronics”, 2014 IEEE Aerospace Conference, Big Sky, Montana, March 2014.

E. Suhir, “Combined Statistics- and Physics-of-Failure- Based Approach in the Probabilistic Design for Reliability of Opto-Electronics Products”, Optical Engineering, 2014.