Takumi Ota scite author profile

Takumi Ota

5Publications

33Citation Statements Received

0Citation Statements Given

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Toshiba (Japan)

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Study of nanoimprint lithography for applications toward 22nm node CMOS devices

Yoneda

Mikami

Ota

et al. 2008

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Nanoimprint lithography is one of the candidates for NGL. Recently, the "S-FIL TM" (Step and Flash Imprint Lithography) has been developed by MII (Molecular Imprints, Inc.). Accordingly, it is necessary to build next-generation devices and study unit processes without delay. Because of good resolution, CD uniformity and LER, nanoimprint lithography is attractive. However, nanoimprint lithography (S-FIL) involves risks. In order to judge whether the S-FIL is applicable to the study of unit processes and test device fabrication, we had studied the feasibility of S-FIL technology.As a result of previous work, we obtained the results of basic evaluation and confirmed the applicability of nanoimprint lithography for unit process study and basic test device fabrication.However, application of nanoimprint lithography to various test devices requires the template resolution of 22nmHP, OL accuracy on multilayer resist, and defect density for various patterns. Therefore, in order to judge whether the S-FIL application is extendable to various test devices, we studied the characteristics of S-FIL.As a result of this work, we confirmed that the nanoimprint application is extendable to fabrication of various test devices. And as a result of basic evaluation, improvement of template resolution is confirmed and the value of 22nmHP is obtained. We confirmed the robustness of the alignment process. The defect density is related in pattern density and spread time. Thus, reduced DD without throughput loss is required.

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A study of filling process for UV nanoimprint lithography using a fluid simulation

Yoneda

Nakagawa

Mikami

et al. 2009

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Nanoimprint lithography has advantages such as good resolution, CD uniformity and LER. However, nanoimprint lithography involves risks. In particular, defectivity is the most critical issue for nanoimprint lithography. Above all, the "non-fill defects" dominate such defects for UV nanoimprint.At the filling process of imprint resist, the capillary force that occurs between an imprint-resist and surface of template plays an important role. Our experience, suggests there is a relationship between the filling characteristics and pattern size of template. We also think the resist properties and the environmental conditions such as atmosphere pressure play important roles in the filling process. This paper explains the filling process dependency on the properties mentioned above.We analyzed the filling process using fluid simulation. At first, we assumed several pattern sizes with the same pattern height. Then, the filling times were estimated for each pattern size with various resist properties and the environmental conditions. An important attribute of our simulation model is the consideration accorded to the dissolution of gas between the template and imprint resist.As a result, the filling time of smaller pattern was found to be shorter than that of larger pattern. The assumed patterns are space and via on template ranging in size from 22nm width to 1000nm-width. The pattern height is 60nm.In this paper, we studied characteristics of filling mechanism by using fluid simulation. The relations between CD and filling time were obtained. We found that the gas dissolution rate is the dominant parameter for filling time.

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Maskless lithography: a low-energy electron-beam direct writing system with a common CP aperture and the recent progress

Nakasugi

Ando

Inanami

et al. 2003

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What is the strongest candidate in lithography for 2x nm HP and beyond?

Hashimoto

Yoneda

Koshiba

et al. 2008

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Exposure characteristics of character projection-type low-energy electron-beam direct writing system

Satoh¹,

Inanami²,

Kishimoto³

et al. 2007

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Takumi Ota

Study of nanoimprint lithography for applications toward 22nm node CMOS devices

A study of filling process for UV nanoimprint lithography using a fluid simulation

Maskless lithography: a low-energy electron-beam direct writing system with a common CP aperture and the recent progress

What is the strongest candidate in lithography for 2x nm HP and beyond?

Exposure characteristics of character projection-type low-energy electron-beam direct writing system

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