Stochastic effects in 11 nm imaging of extreme ultraviolet lithography with chemically amplified resists

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概要

• 論文の詳細を見る
• Institute of Physicsの論文
• 2014-02-03

著者

• KOZAWA Takahiro

  The Institute of Scientific and Industrial Research (ISIR), Osaka University

関連論文

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• Study on Radiation-Induced Reaction in Microscopic Region for Basic Understanding of Electron Beam Patterning in Lithographic Process (I) : Development of Subpicosecond Pulse Radiolysis and Relation between Space Resolution and Radiation-Induced Reactions
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• Relationship between Sensitivities of Chemically Amplified Resist Based on Adamantane Derivatives upon Exposure to ArF Excimer Laser, Electron Beam, and Extreme Ultraviolet Radiation
• Enhancement of Acid Production in Chemically Amplified Resist for Extreme Ultraviolet Lithography
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• Reactivity of Acid Generators for Chemically Amplified Resists with Low-Energy Electrons
• Resist Thickness Effect on Acid Concentration Generated in Poly(4-hydroxystyrene) Film upon Exposure to 75keV Electron Beam
• Reaction Mechanisms of Brominated Chemically Amplified Resists
• Optimum Dissolution Point of Chemically Amplified Resists in Terms of Trade-Off Relationships between Resolution, Line Edge Roughness, and Sensitivity
• Radiation Chemistry of Fluoronaphthalene as a Candidate for Absorption Enhancement Component of Chemically Amplified Extreme Ultraviolet Resists
• Thermalization Distance of Electrons Generated in Poly(4-hydroxystyrene) Film Containing Acid Generator upon Exposure to Extreme Ultraviolet Radiation
• Assessment and extendibility of chemically amplified resists for extreme ultraviolet lithography: consideration of nanolithography beyond 22nm half-pitch
• Reconstruction of Latent Images from Dose-Pitch Matrices of Line Width and Edge Roughness of Chemically Amplified Resist for Extreme Ultraviolet Lithography
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• Reactivity of Acid Generators for Chemically Amplified Resists with Low-Energy Electrons
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• Theoretical study on stochastic defect generation in chemically amplified resist process for extreme ultraviolet lithography
• Effects of effective reaction radius for neutralization on performance of chemically amplified resists

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