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Analyzing the effects of pad asperity on chemical mechanical polishing of copper thin film wafer

Le Nam Quoc Huy, Chunyu Lin, Chao‐Chang A. Chen

2022Japanese Journal of Applied Physics12 citationsDOI

Abstract

Abstract Copper thin film has been identified as a promising material for multi-level interconnecting materials in IC fabrication due to its unique electrical properties and high electrical conductivity. However, it is very challenging to manufacture a superior planar surface with low dishing and minimal erosion of copper thin film in the chemical mechanical polishing (CMP) process. In this study, the micro-topography model of a soft polishing pad is performed using an X-ray micro-computed tomography scan combined with finite element method simulation to evaluate the contact area between the CMP pad and wafer during the CMP process. Additionally, the material removal rate (MRR) model for the copper wafer is calibrated based on the wear of the material between abrasive particles and the wafer surface. The results of this study not only investigate the effect of CMP pad asperities during the CMP process but also provide a new method for fully calibrating MRR in comparison with CMP experiments for the verification of model parameters.

Topics & Concepts

Chemical-mechanical planarizationWaferMaterials sciencePolishingAbrasiveCopperComposite materialAsperity (geotechnical engineering)Thin filmFabricationMetallurgyOptoelectronicsNanotechnologyAlternative medicineMedicinePathologyAdvanced Surface Polishing TechniquesAdvanced machining processes and optimizationMetal and Thin Film Mechanics
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