化学机械平面化
抛光
材料科学
复合材料
表面粗糙度
刷子
粒子(生态学)
表面光洁度
Lift(数据挖掘)
阻力
机械
计算机科学
海洋学
物理
数据挖掘
地质学
作者
Fan Zhang,Ahmed Busnaina,Goodarz Ahmadi
摘要
A new model including the effects of polishing pressure and platen speed on particle penetration depth in chemical mechanical polishing (CMP) processes is derived based on the particle adhesion theory, the surface plastic deformation, and the pad‐wafer partial contact. The predicted particle penetration depth is in good agreement with the experimental surface roughness data. Particle removal models in the final polishing and mechanical brushing/cleaning processes are proposed, and the removal forces are evaluated. The lift force in the hydrodynamic boundary layer is too small to lift particles off the surface and particles most likely roll off the surfaces by the drag force plus the contact forces from the pad or brush asperities. The effects of pressure, rotation speed, pad hardness, and chemical addition in post‐CMP are also addressed. © 1999 The Electrochemical Society. All rights reserved.
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