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Enabling Damascene Solutions for 45 nm Beyond

Published online by Cambridge University Press:  01 February 2011

Manabu Tsujimura*
Affiliation:
[email protected], Ebara Corporation, Precision Machinery Company, 4-2-1 Honfujisawa, Fujisawa-SHi
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Abstract

There are several technology developments, which should have been completed in CN 65 nm (Commercial node) device development, but passed over to CN 45 nm device development. Seven items relating with damascene process, especially connecting with planarization process, are nominated and introduced herein including new advent technologies as enabling solutions for CN 45 nm. First one is low-down-force planarization. Although there are several planarization technologies such as CMP (Chemical Mechanical Polisher), ECMP (Electrical Chemical Mechanical Polisher), ECP (Electrical Chemical Polisher), CE (Chemical Etching) and those combination technologies, it is not decided which is the best one and how low down force is optimized taking into account of CoC (Cost of Consumable) issues. In this report, all planarization technologies are explained using ‘General Principle governing all planarization technologies’, and allowable down force is suggested through stress analysis and fracture toughness analysis. Second one is direct polish on ULK. There may be two approaches. One is to adopt CMP hard mask which dielectric constant would not be changed by direct polish. In this case, non-uniformity of CMP in this hard mask is important. Second is to polish directly on ULK, which dielectric constant would be changed by CMP, then restoration technology should be discussed at a same time. Third one is Ru liner application. When is this technology required? Deposition for Ru seed and polishing of Ru integration are reported. Forth one is watermark free drying of ULK. Vacuum drying and IPA drying (Rotagoni) which is necessary for hydrophobic surfaces are reported. Fifth one is cleaning technologies for less than 45 nm FM. After CN 45 nm, it is difficult to distinguish several defects such as scratches or FM. In this case, soft cleaning methods such as non-contact cleaning would be required. Cavitation jet as one of non-contact type cleanings is reported with its cleaning results. Sixth one is Co-W cap process. Electro-less metal cap technology in order to enhance EM is reported. CMP after Co-W deposition may be useful in order to clean cap surfaces. Seventh one is starting material such as nanotopography and roll off which would affect on CMP performances.

Type
Research Article
Copyright
Copyright © Materials Research Society 2007

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References

REFERENCES

1.ITRS(International Technology Roadmap for Semiconductors), SIA, (2005)Google Scholar
2. Tsujimura, M. et al. . : ”General Principle of Planarization Governing CMP, ECP, ECMP & CE”, Proceedings 2004 IMIC-030/00/0267, p267274 Google Scholar
3. Mochizuki, Y.1, Tsujimura, M. et al. , ; ”Finite element analysis of the stress in vias with Cu/Low-k structure”, MRS Advanced Metallization Conference 2005 (AMC2005, Proceedings),(2005)Google Scholar
4. Toma, Y., Tsujimura, M. et al. , ; “Surface Roughness Performance of Electro Chemical Mechanical Polishing (ECMP)”, Advanced Metallization Conference: Asian Session, (2000),Google Scholar
5. Mochizuki, Y., Tsujimura, M. et al. , ; “Stress analysis of low-k material interface during CMP”, MRS Advanced Metallization Conference 2006 {AMC2006, Proceedings}, (2006)Google Scholar
6. Shimoyama, M, Tsujimura, M.: ”Effect of CMP variation on effective dielectric constant of interconnect structures”, JSME Proceedings, (2005)Google Scholar
7. Hodai, M., Tsujimura, M. et al. , : “ Cu plating under high resistance Cu seed increased by scattering effect”, Advanced Metallization Conference 2005, Asian SessionGoogle Scholar
8. Maeda, K., Tsujimura, M. et al. : ”The Development of Batch Type Low Pressure Spin Dryer for Water Mark-less Wafer”, ISSM,(1999)Google Scholar
9. Kouichi, F., Tsujimura, M.: ”Drying effect on hydorophobic and hydorophilic films by IPA”, JSME Proceedings, (2005)Google Scholar
10. Tsujimura, M. et al. : ”Development of semi-conductor device cleaning by cavitation jet”, Advanced Metallization Conference 2000:Asian Session October19-20, 2000, p4950 Google Scholar
11. Wang, X., Tsujimura, M. et al. ;” Selective Formation of CoWP Capping Barriers onto Cu Interconnects by Electro-less Plating”, AMC2004, Proceedings,(2004)Google Scholar
12. Fukuda, A. Tsujimura, M. “Simulation of the Impact of Nanotopography on STI-CMP”, JSME Proceedings, (2005)Google Scholar
13. Fukuda, A. Tsujimura, M.:”The Impact of Wafer Edge Roll-Off on CMP Performance”, JSPE Proceedings, (2005)Google Scholar