Benchmarking of 50 nm features in thermal nanoimprint

Gourgon, C.; Chaix, N.; Schift, H.; Tormen, M.; Landis, S.; Torres, C. M. Sotomayor; Kristensen, A.; Pedersen, R. H.; Christiansen, M. B.; Fernandez-Cuesta, I.; Mendels, D.; Montelius, Lars; Haatainen, T.

Benchmarking of 50 nm features in thermal nanoimprint

Mark

Gourgon, C. ; Chaix, N. ; Schift, H. ; Tormen, M. ; Landis, S. ; Torres, C. M. Sotomayor ; Kristensen, A. ; Pedersen, R. H. ; Christiansen, M. B. and Fernandez-Cuesta, I. , et al. (2007) In Journal of Vacuum Science and Technology B 25(6). p.2373-2378

Abstract: The objective of this benchmarking is to establish a comparison of several tools and processes used in thermal NIL with Si stamps at the nanoscale among the authors' laboratories. The Si stamps have large arrays of 50 nm dense lines and were imprinted in all these laboratories in a similar to 100 nm thick mr-18010E film. Other materials, such as mr-17010E, were also tested. Good patterns were obtained and some limitations were identified. Reducing the pressure to 15 bars enables the printing of 50 nm structures without pulling them off. At higher pressures, some bending effects resulting in pattern deformation were observed. It was proven that a pressure of 1.5 bars is sufficient to imprint perfect 50 nm lines. The influence of the... (More); The objective of this benchmarking is to establish a comparison of several tools and processes used in thermal NIL with Si stamps at the nanoscale among the authors' laboratories. The Si stamps have large arrays of 50 nm dense lines and were imprinted in all these laboratories in a similar to 100 nm thick mr-18010E film. Other materials, such as mr-17010E, were also tested. Good patterns were obtained and some limitations were identified. Reducing the pressure to 15 bars enables the printing of 50 nm structures without pulling them off. At higher pressures, some bending effects resulting in pattern deformation were observed. It was proven that a pressure of 1.5 bars is sufficient to imprint perfect 50 nm lines. The influence of the antiadhesive layer and mold design has been characterized by the demonstration of pulled off lines in some cases. Moreover, it has been shown that the scatterometry method is particularly useful for the characterization of 50 nm lines and that the residual layer thickness corresponds to the theoretical estimate as long as the lines are well defined. One process was demonstrated which combines high reproducibility with high throughput, achieving a cycle time of 2 min. (c) 2007 American Vacuum Society. (Less)

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/965841

author

Gourgon, C. ; Chaix, N. ; Schift, H. ; Tormen, M. ; Landis, S. ; Torres, C. M. Sotomayor ; Kristensen, A. ; Pedersen, R. H. ; Christiansen, M. B. and Fernandez-Cuesta, I. , et al. (More)

Gourgon, C. ; Chaix, N. ; Schift, H. ; Tormen, M. ; Landis, S. ; Torres, C. M. Sotomayor ; Kristensen, A. ; Pedersen, R. H. ; Christiansen, M. B. ; Fernandez-Cuesta, I. ; Mendels, D. ; Montelius, Lars ^LU and Haatainen, T. (Less)

organization

Solid State Physics

publishing date

2007

type

Contribution to journal

publication status

published

subject

Condensed Matter Physics

in

Journal of Vacuum Science and Technology B

volume

25

issue

6

pages

2373 - 2378

publisher

American Institute of Physics (AIP)

external identifiers

wos:000251611900122
scopus:37149038888

ISSN

1520-8567

DOI

10.1116/1.2794064

language

English

LU publication?

yes

id

4e58d44c-008b-48b9-befc-fc893676dad6 (old id 965841)

date added to LUP

2016-04-01 12:18:24

date last changed

2022-01-27 01:50:36

@article{4e58d44c-008b-48b9-befc-fc893676dad6,
  abstract     = {{The objective of this benchmarking is to establish a comparison of several tools and processes used in thermal NIL with Si stamps at the nanoscale among the authors' laboratories. The Si stamps have large arrays of 50 nm dense lines and were imprinted in all these laboratories in a similar to 100 nm thick mr-18010E film. Other materials, such as mr-17010E, were also tested. Good patterns were obtained and some limitations were identified. Reducing the pressure to 15 bars enables the printing of 50 nm structures without pulling them off. At higher pressures, some bending effects resulting in pattern deformation were observed. It was proven that a pressure of 1.5 bars is sufficient to imprint perfect 50 nm lines. The influence of the antiadhesive layer and mold design has been characterized by the demonstration of pulled off lines in some cases. Moreover, it has been shown that the scatterometry method is particularly useful for the characterization of 50 nm lines and that the residual layer thickness corresponds to the theoretical estimate as long as the lines are well defined. One process was demonstrated which combines high reproducibility with high throughput, achieving a cycle time of 2 min. (c) 2007 American Vacuum Society.}},
  author       = {{Gourgon, C. and Chaix, N. and Schift, H. and Tormen, M. and Landis, S. and Torres, C. M. Sotomayor and Kristensen, A. and Pedersen, R. H. and Christiansen, M. B. and Fernandez-Cuesta, I. and Mendels, D. and Montelius, Lars and Haatainen, T.}},
  issn         = {{1520-8567}},
  language     = {{eng}},
  number       = {{6}},
  pages        = {{2373--2378}},
  publisher    = {{American Institute of Physics (AIP)}},
  series       = {{Journal of Vacuum Science and Technology B}},
  title        = {{Benchmarking of 50 nm features in thermal nanoimprint}},
  url          = {{http://dx.doi.org/10.1116/1.2794064}},
  doi          = {{10.1116/1.2794064}},
  volume       = {{25}},
  year         = {{2007}},
}

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Benchmarking of 50 nm features in thermal nanoimprint