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Angled Plan View FIB Sample Preparation for Accurate via Sidewall Measurements

Published online by Cambridge University Press:  02 July 2020

J. Conner ,
L. Prabhu ,
A. Anderson ,
S. Bagchi ,
R. Rai ,
J. Beck  and
L. Duncan
J. Conner
Affiliation:
Motorola Digital DNA Laboratories, 3501 Ed Bluestein Boulevard, Austin, TX, 78721
L. Prabhu
Affiliation:
Motorola Digital DNA Laboratories, 3501 Ed Bluestein Boulevard, Austin, TX, 78721
A. Anderson
Affiliation:
Motorola Digital DNA Laboratories, 3501 Ed Bluestein Boulevard, Austin, TX, 78721
S. Bagchi
Affiliation:
Motorola Digital DNA Laboratories, 3501 Ed Bluestein Boulevard, Austin, TX, 78721
R. Rai
Affiliation:
Motorola Digital DNA Laboratories, 3501 Ed Bluestein Boulevard, Austin, TX, 78721
J. Beck
Affiliation:
Motorola Digital DNA Laboratories, 3501 Ed Bluestein Boulevard, Austin, TX, 78721
L. Duncan
Affiliation:
Motorola Digital DNA Laboratories, 3501 Ed Bluestein Boulevard, Austin, TX, 78721
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Abstract

Critical dimensions in advanced semiconductor devices are now such that a significant fraction of some structures is contained within the thickness of a TEM foil. An important example is the vias used in multilevel metallization to interconnect transistors and other structures. Current generation vias have a diameter of 300 nm, and vias in devices under development are targeted at 180 nm. These dimensions are to be compared to the thickness of a TEM foil, which may be ∼50 nm. Vias are typically fabricated by etching holes in a dielectric layer, then depositing into these holes a barrier metal, such as Ta, followed by a Cu seed layer and finally Cu fill. Critical to via processing reliability are the thicknesses of barrier and seed layers. A TEM cross section of such a via will contain sharply curved layers which, when seen in projection, will lead to inaccurate measurement of layer thicknesses. Ordinary plan view preparation of these vias avoids this projection problem, but uncertainty is introduced in the height at which the via is sectioned.

We have developed an angled plan view (APV) FIB preparation technique that allows accurate measurement of barrier and seed thicknesses at discrete heights from bottom to top of a via.

Type
Applications and Developments of Focused Ion Beam (FIB) Instruments (Organized by L. Giannuzzi)
Information
Microscopy and Microanalysis , Volume 7 , Issue S2: Proceedings: Microscopy & Microanalysis 2001, Microscopy Society of America 59th Annual Meeting, Microbeam Analysis Society 35th Annual Meeting, Long Beach, California August 5-9, 2001 , August 2001 , pp. 960 - 961
Copyright
Copyright © Microscopy Society of America 2001

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References

references

1.Stevie, F. A.et al., MP Conference Proceedings, no. 449 (1998) 868.Google Scholar
2.Tsung, L.et al., Microscopy & Microanalysis Proceedings, vol. 6, supp. 2 (2000) 500.CrossRefGoogle Scholar
3. The authors gratefully acknowledge Dave Sieloff and Joe Mogab for their support of this work.Google Scholar