Tribological, thermal, and kinetic attributes of 300 vs. 450 mm chemical mechanical planarization processes

Yubo Jiao; Xiaoyan Liao; Changhong Wu; Yun Zhuang; Yasa Sampurno; Ara Philipossian; Siannie Theng; Michael Goldstein

doi:10.1109/ASMC.2012.6212910

Tribological, thermal, and kinetic attributes of 300 vs. 450 mm chemical mechanical planarization processes

Yubo Jiao, Xiaoyan Liao, Changhong Wu, Yun Zhuang, Yasa Sampurno, Ara Philipossian, Siannie Theng, Michael Goldstein

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

An existing 300 mm CMP tool has been modified to polish 450 mm wafers in order to demonstrate experimentally whether any differences exist in the tribological and thermal characteristics of the two processes, and from that, to infer whether one can expect any removal rate differences between the two systems. Results suggest that, within the ranges of parameter investigated, the two systems behave similarly in terms of their coefficients of friction and lubrication regimes. Additionally, it is shown that the 450 mm process, once adjusted for its platen velocity, runs only slightly warmer (by 1 to 2°C) than its 300 mm counterpart. Experimental data, coupled with copper removal rate simulations show that the wafer surface reaction temperatures of the 450 mm adjusted process are higher (by 2 to 3°C) than the 300 mm process. Consequently, simulated copper removal rates for the 450 mm adjusted process are higher (by 8 to 31%) than those of the 300 mm process.

Original language	English (US)
Title of host publication	2012 SEMI Advanced Semiconductor Manufacturing Conference, ASMC 2012
Pages	272-277
Number of pages	6
DOIs	https://doi.org/10.1109/ASMC.2012.6212910
State	Published - 2012
Externally published	Yes
Event	2012 23rd Annual SEMI Advanced Semiconductor Manufacturing Conference, ASMC 2012 - Saratoga Springs, NY, United States Duration: May 15 2012 → May 17 2012

Publication series

Name	ASMC (Advanced Semiconductor Manufacturing Conference) Proceedings
ISSN (Print)	1078-8743

Other

Other	2012 23rd Annual SEMI Advanced Semiconductor Manufacturing Conference, ASMC 2012
Country/Territory	United States
City	Saratoga Springs, NY
Period	5/15/12 → 5/17/12

Keywords

300 vs. 450 mm
chemical mechanical planarization
coefficient of friction
removal rate
wafer surface reaction temperature

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
General Engineering
Industrial and Manufacturing Engineering
Electrical and Electronic Engineering

Access to Document

10.1109/ASMC.2012.6212910

Cite this

Jiao, Y., Liao, X., Wu, C., Zhuang, Y., Sampurno, Y., Philipossian, A., Theng, S., & Goldstein, M. (2012). Tribological, thermal, and kinetic attributes of 300 vs. 450 mm chemical mechanical planarization processes. In 2012 SEMI Advanced Semiconductor Manufacturing Conference, ASMC 2012 (pp. 272-277). Article 6212910 (ASMC (Advanced Semiconductor Manufacturing Conference) Proceedings). https://doi.org/10.1109/ASMC.2012.6212910

Tribological, thermal, and kinetic attributes of 300 vs. 450 mm chemical mechanical planarization processes. / Jiao, Yubo; Liao, Xiaoyan; Wu, Changhong et al.
2012 SEMI Advanced Semiconductor Manufacturing Conference, ASMC 2012. 2012. p. 272-277 6212910 (ASMC (Advanced Semiconductor Manufacturing Conference) Proceedings).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Jiao, Y, Liao, X, Wu, C, Zhuang, Y, Sampurno, Y, Philipossian, A, Theng, S & Goldstein, M 2012, Tribological, thermal, and kinetic attributes of 300 vs. 450 mm chemical mechanical planarization processes. in 2012 SEMI Advanced Semiconductor Manufacturing Conference, ASMC 2012., 6212910, ASMC (Advanced Semiconductor Manufacturing Conference) Proceedings, pp. 272-277, 2012 23rd Annual SEMI Advanced Semiconductor Manufacturing Conference, ASMC 2012, Saratoga Springs, NY, United States, 5/15/12. https://doi.org/10.1109/ASMC.2012.6212910

Jiao Y, Liao X, Wu C, Zhuang Y, Sampurno Y, Philipossian A et al. Tribological, thermal, and kinetic attributes of 300 vs. 450 mm chemical mechanical planarization processes. In 2012 SEMI Advanced Semiconductor Manufacturing Conference, ASMC 2012. 2012. p. 272-277. 6212910. (ASMC (Advanced Semiconductor Manufacturing Conference) Proceedings). doi: 10.1109/ASMC.2012.6212910

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title = "Tribological, thermal, and kinetic attributes of 300 vs. 450 mm chemical mechanical planarization processes",

abstract = "An existing 300 mm CMP tool has been modified to polish 450 mm wafers in order to demonstrate experimentally whether any differences exist in the tribological and thermal characteristics of the two processes, and from that, to infer whether one can expect any removal rate differences between the two systems. Results suggest that, within the ranges of parameter investigated, the two systems behave similarly in terms of their coefficients of friction and lubrication regimes. Additionally, it is shown that the 450 mm process, once adjusted for its platen velocity, runs only slightly warmer (by 1 to 2°C) than its 300 mm counterpart. Experimental data, coupled with copper removal rate simulations show that the wafer surface reaction temperatures of the 450 mm adjusted process are higher (by 2 to 3°C) than the 300 mm process. Consequently, simulated copper removal rates for the 450 mm adjusted process are higher (by 8 to 31%) than those of the 300 mm process.",

keywords = "300 vs. 450 mm, chemical mechanical planarization, coefficient of friction, removal rate, wafer surface reaction temperature",

author = "Yubo Jiao and Xiaoyan Liao and Changhong Wu and Yun Zhuang and Yasa Sampurno and Ara Philipossian and Siannie Theng and Michael Goldstein",

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doi = "10.1109/ASMC.2012.6212910",

language = "English (US)",

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AU - Jiao, Yubo

AU - Liao, Xiaoyan

AU - Wu, Changhong

AU - Zhuang, Yun

AU - Sampurno, Yasa

AU - Philipossian, Ara

AU - Theng, Siannie

AU - Goldstein, Michael

PY - 2012

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N2 - An existing 300 mm CMP tool has been modified to polish 450 mm wafers in order to demonstrate experimentally whether any differences exist in the tribological and thermal characteristics of the two processes, and from that, to infer whether one can expect any removal rate differences between the two systems. Results suggest that, within the ranges of parameter investigated, the two systems behave similarly in terms of their coefficients of friction and lubrication regimes. Additionally, it is shown that the 450 mm process, once adjusted for its platen velocity, runs only slightly warmer (by 1 to 2°C) than its 300 mm counterpart. Experimental data, coupled with copper removal rate simulations show that the wafer surface reaction temperatures of the 450 mm adjusted process are higher (by 2 to 3°C) than the 300 mm process. Consequently, simulated copper removal rates for the 450 mm adjusted process are higher (by 8 to 31%) than those of the 300 mm process.

AB - An existing 300 mm CMP tool has been modified to polish 450 mm wafers in order to demonstrate experimentally whether any differences exist in the tribological and thermal characteristics of the two processes, and from that, to infer whether one can expect any removal rate differences between the two systems. Results suggest that, within the ranges of parameter investigated, the two systems behave similarly in terms of their coefficients of friction and lubrication regimes. Additionally, it is shown that the 450 mm process, once adjusted for its platen velocity, runs only slightly warmer (by 1 to 2°C) than its 300 mm counterpart. Experimental data, coupled with copper removal rate simulations show that the wafer surface reaction temperatures of the 450 mm adjusted process are higher (by 2 to 3°C) than the 300 mm process. Consequently, simulated copper removal rates for the 450 mm adjusted process are higher (by 8 to 31%) than those of the 300 mm process.

KW - 300 vs. 450 mm

KW - chemical mechanical planarization

KW - coefficient of friction

KW - removal rate

KW - wafer surface reaction temperature

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ER -

Tribological, thermal, and kinetic attributes of 300 vs. 450 mm chemical mechanical planarization processes

Abstract

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Keywords

ASJC Scopus subject areas

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