Nanometer Accurate Markerless Pattern Overlay Using Thermal Scanning Probe Lithography

Author

Rawlings, Colin ; Duerig, Urs ; Hedrick, James ; Coady, Dan ; Knoll, Armin W.

Author_Institution

IBM Res. - Zurich, Rueschlikon, Switzerland

Volume

13

Issue

6

fYear

2014

fDate

Nov. 2014

Firstpage

1204

Lastpage

1212

Abstract

Thermal scanning probe lithography combines high-resolution patterning capabilities with the ability to read topography without causing resist exposure. As such, it is an ideal candidate for the implementation of markerless pattern overlay. This approach eliminates errors arising from marker degradation and inconsistencies in the positioning hardware used for reading and writing. Here, we outline our implementation and characterization of a markerless lithography process. We demonstrate theoretically and experimentally that alignment errors below 5 nm are possible for micron-sized features having an amplitude of just 4 nm. Further, we show that following proper calibration, a limiting overlay accuracy of 1.1 nm per axis is achievable.

Keywords

nanolithography; nanopatterning; marker degradation; markerless lithography process; nanometer accurate markerless pattern overlay; positioning hardware; thermal scanning probe lithography; Calibration; Correlation; Equations; Lithography; Mathematical model; Surface topography; Nanolithography; nanopositioning; scanning probe microscopy;

fLanguage

English

Journal_Title

Nanotechnology, IEEE Transactions on

Publisher

ieee

ISSN

1536-125X

Type

jour

DOI

10.1109/TNANO.2014.2353812

Filename

6891240