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Low-temperature Cu–Cu bonding utilizing pillar and concave on silicon substrate with and without polymer layer is successfully implemented at 200 °C under atmospheric pressure. Finite-element method (FEM) simulations on stress and deformation generated during bonding process are also presented in order to discuss their influence on bonding result of several pillar diameters and of concave sidewall...
A novel method of fabricating high transmittance and broadband terahertz (THz) polarizers is introduced with several advantages. A polarizer with an approximate 100% transmittance is demonstrated with single central frequency of anti-reflection (AR) layers between 0.5 THz and 2 THz. Broadband polarizer, which has a transmission spectrum of over 70% uniformity, is fabricated by bonding two wafers with...
In this paper, finite element method (FEM) simulations are carried out with pillar-concave structure using silicon substrate, silicon substrate with polyimide (PI) and with polybenzoxazole (PBO) for realization of Cu-Cu bonding at low temperature. Parameters of bonding temperature, pillar diameter, concave sidewall angle, and multilayer of concave structure are all considered in simulation. In addition,...
In this study, Cu-Cu bonding with pillar-concave structure on a polymer layer was investigated to realize better bonding quality at lower temperature, while a low-stress release layer for temporary bond and de-bond by laser ablation was demonstrated to handle a glass panel for re-distribution layer (RDL) process. The low temperature technology can be potentially applied for RDL-first fan-out panel...
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