2011
DOI: 10.1143/jjap.50.06gk04
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Fabrication Processes for Capacity-Equalized Mold with Fine Patterns

Abstract: The variation of residual layer thickness (RLT) by the difference of pattern density is a difficult problem in UV nanoimprint lithography (NIL). A capacity-equalized mold was proposed to solve the problem, and the effectiveness of the concept was validated using a mold with various pattern sizes of hundreds of micrometers. However, the effectiveness should be evaluated at nanometer scales to prove the concept. Here the first challenge has been to fabricate and evaluate a two-step-depth mold with tens of nanome… Show more

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Cited by 3 publications
(5 citation statements)
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“…We also developed a mold fabrication process for the two-step structures with sub-100-nm wide patterns using electron beam (e-beam) lithography and laser beam lithography. 22) In this work, a capacity equalized mold with sub-100-nm wide patterns was fabricated based on the developed processes and verified the applicability of the capacity equalized mold to UV nanoimprint in sub-100-nm dimensions.…”
Section: Introductionmentioning
confidence: 54%
See 2 more Smart Citations
“…We also developed a mold fabrication process for the two-step structures with sub-100-nm wide patterns using electron beam (e-beam) lithography and laser beam lithography. 22) In this work, a capacity equalized mold with sub-100-nm wide patterns was fabricated based on the developed processes and verified the applicability of the capacity equalized mold to UV nanoimprint in sub-100-nm dimensions.…”
Section: Introductionmentioning
confidence: 54%
“…In a previous study, a Cr film was sputtered by physical dry etching using CHF 3 gas. 22) In this study, the Cr etching method was replaced by a chemical dry etching (using Cl 2 and O 2 gases) through thin SiO 2 mask patterns. The SiO 2 thin film served as an etching mask in the Cr etching process to keep the grooves from becoming wider during the Cr dry etching using Cl 2 and O 2 gases.…”
Section: Fabrication Process For Capacity-equalized Moldmentioning
confidence: 99%
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“…The fabrication process of a two-step-depth quartz CE mold that utilizes electron beam (EB) lithography and self-alignment etching has already been published. 28) One of the key processes is the reuse of the etch mask utilized in the first etching step as a support mask for the second etching step. Therefore, the complexed second EB writing pattern can be simplified to a solid square area because all surfaces except patterned areas are protected by the etch-stop layer for the first etching step.…”
Section: Simplified Complementary Pattern For Maskmentioning
confidence: 99%
“…As an alternative, we have proposed the use of a capacityequalized (CE) mold, in which deeper complementary cavities are added to the original trench pattern areas to achieve a uniform pattern capacity per unit area throughout an entire mold with varying pattern density. [26][27][28][29][30][31][32] One of the key advantages of this method is that the pattern capacity can be equalized without changing the original pattern layout. To enhance the possibility of the industrial use of CE molds, we develop an automated design method using software programs, which is applicable to real device patterns where variations in pattern density and shape are severe.…”
Section: Introductionmentioning
confidence: 99%