Linear-Fresnel-Zone-Plate-Based Two-State Alignment Method for Sub-0.25 μm X-Ray Lithography System
スポンサーリンク
概要
- 論文の詳細を見る
In this paper, we present a linear-Fresnel-zone-plate-based two-state alignment method developed at the Center for X-ray Lithography. The alignment system uses a linear Fresnel zone plate (LFZP) as a mask alignment mark and an array of dots as a wafer alignment mark. The alignment error signal extraction is based on a two-state modulation of the incident light. The optical system is arranged outside of the exposure X-ray path and alignment can be performed during X-ray exposures. In the experiment, we obtained an alignment signal depth of focus larger than 4 μm and the gap change between the mask and wafer did not affect the alignment position. The X-ray double-exposure experiment on the system demonstrated an alignment accuracy better than 0.035 μm (3σ) on both Al and silicon nitride marks.
- 社団法人応用物理学会の論文
- 1993-12-30
著者
-
Wallace John
Center For X-ray Lithography University Of Wisconsin-madison
-
CERRINA Franco
Center for X-ray Lithography University of Wisconsin-Madison
-
Cerrina Franco
Center For Nanotechnology University Of Wisconsin-madison
-
CHEN Gong
Center for X-ray Lithography, University of Wisconsin-Madison
-
Chen G
Center For X-ray Lithography University Of Wisconsin-madison
関連論文
- Mechanical Response of X-Ray Masks
- Linear-Fresnel-Zone-Plate-Based Two-State Alignment Method for Sub-0.25 μm X-Ray Lithography System
- Performance of the Modified Suss XRS 200 / 2M X-Ray Stepper at CXrL
- Evaluation of a Solid State Detector for X-Ray Lithography Dosimetry
- Dissolution Study of a Novolak-Based Photoresist Based on a Developer Diffusion Model
- Modeling Clear Phase-Mask Materials for Sub-50 nm X-Ray Application