Analytical Modeling of Electronic and Photonic Materials Reliability: Perspective and Extension
Published In
Journal of Engineering Materials and Technology-Transactions of the Asme
Document Type
Citation
Publication Date
7-1-2023
Abstract
The objective of this review is twofold: to show materials scientists, mechanical engineers, and reliability physicists not involved in electronics, photonics, microelectronic-mechanical-systems (MEMS), or MOEMS (optical MEMS) engineering what kind of value they could bring to this important “high-tech” area, as well as to demonstrate to “high-tech” engineers how they could benefit from the application of what has been developed, for many years, in the general field of physical design for reliability of materials and structures employed in various fields of engineering and applied science and what could be effectively applied to their body of knowledge. Accordingly, in the perspective part of the review, some critical and even paradoxical, i.e., a priori nonobvious, problems encountered in microelectronics and photonics materials science, reliability physics, and structural analysis are addressed using what could be called analytical (“mathematical”) modeling. The extension part has to do with some specific, mostly aerospace, recent applications of the probabilistic design for reliability concept and analytical modeling effort.
Rights
© 2023 ASME
Locate the Document
DOI
10.1115/1.4062085
Persistent Identifier
https://archives.pdx.edu/ds/psu/40434
Publisher
ASME
Citation Details
Suhir, E. (2023). Analytical Modeling of Electronic and Photonic Materials Reliability: Perspective and Extension. Journal of Engineering Materials and Technology, 145(3).