Title of article
In situ endpoint detection by pad temperature in chemical-mechanical polishing of copper overlay
Author/Authors
Hocheng، Hong نويسنده , , Huang، Yun-Liang نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2004
Pages
-17
From page
18
To page
0
Abstract
As the number of metal levels and the wafer size increase, the global planarity and effective removal of metal overlay across the wafer becomes more crucial. Chemical-mechanical polishing (CMP) has been recognized essential to achieve this goal. Accurate in situ endpoint detection and monitoring method significantly improves the yield and throughput. Previous methods have been proposed, which either require the rearrangement of the machine set-up, or can only be implanted on certain types of machines. In this study, a model for pad temperature capable of predicting the endpoint of CMP in situ is established based on the total consumed kinematic energy between wafer and pad. Limited assumptions of thermal and kinematic conditions are made. The model of temperature rise uses the integral of the relative polishing speed and is verified by on-line measurement. Since the coefficient of friction between the pad and dielectric layer is distinguishably lower than that between the pad and the metal layer, the pad temperature increases milder than polishing the metal layer. In use of the proposed regression method applied to the measured temperature rise, the endpoint of the process can be detected.
Keywords
schistosomiasis , ALT , lactoferrin , AST. , Schistosoma mansoni , GST , parasites , Colostrum , camel milk
Journal title
IEEE Transactions on Semiconductor Manufacturing
Serial Year
2004
Journal title
IEEE Transactions on Semiconductor Manufacturing
Record number
95559
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