Keiko Amai scite author profile

Keiko Amai

5Publications

12Citation Statements Received

19Citation Statements Given

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Dexerials (Japan)

Publications

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Complementary masking approach for proximity electron lithography

Omori¹,

Iwase²,

Amai³

et al. 2002

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Approach to full-chip simulation and correction of stencil mask distortion for proximity electron lithographyWe have devised a new mask format for low-energy electron-beam proximity-projection lithography ͑LEEPL͒ that enables faster and more accurate image transfer from the mask to a wafer, in comparison with the single-membrane mask as originally proposed. Simultaneous exposure over four adjacent complementary quadrants of the mask, synchronized with step-and-repeat motion of the wafer stage, yields one complete pattern with the throughput of ϳ30 wafers/h. Mechanical analysis has demonstrated that the new format also offers better controllability of image placement owing to smaller membranes, even though the gravitational deformation of the mask, for example, must still be corrected for.

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On-site use of 1x stencil mask: control over image placement and dimension

Omori

Iwase

Watanabe

et al. 2003

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Litho-and-mask concurrent approach to the critical issues for proximity electron lithography

Omori

Iwase

Amai

et al. 2003

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The performance of the LEEPL production tool is discussed from the framework of the litho-and-mask concurrent development schemes to establish the feasibility of proximity electron lithography (PEL) especially for contact and via layers in the 65-nm technology node. The critical-dimension (CD) uniformity of 4.7 nm has been achieved for 90-nm contact holes over the 1x stencil mask. Thus, the mask patterns can be transferred onto the resist layer with CD errors of less than 10%, even if the mask-error enhancement factor (MEEF) of 1.6 is taken into account. The mask manufacturability is improved if the MEEF further decreases via the use of thinner resists. Meanwhile, the overlay accuracy of 21.1 nm has been achieved in mix-and-match with the ArF scanner, with the intra-field error of only 5.1 nm owing to the real-time correction for the mask distortion. Also, the conditions for splitting dense lines into two complementary portions have been determined to avoid the pattern collapse in wet-cleaning and drying processes. The critical length of 2 µm is fairly safe for 70-nm lines if the low-damage drying is employed. The inspection tool based on transmission electron images cannot detect all printable defects without further optimization, hence a future challenge.

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Analysis of critical dimension uniformity for LEEPL

Yoshizawa

Iwase

Ohtorii

et al. 2004

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Resolution-limiting factors in low-energy electron-beam proximity projection lithography: Mask, projection, and resist process

Yoshizawa¹,

Oguni²,

Nakano³

et al. 2004

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Keiko Amai

Complementary masking approach for proximity electron lithography

On-site use of 1x stencil mask: control over image placement and dimension

Litho-and-mask concurrent approach to the critical issues for proximity electron lithography

Analysis of critical dimension uniformity for LEEPL

Resolution-limiting factors in low-energy electron-beam proximity projection lithography: Mask, projection, and resist process

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