Electron Beam Throughput from Raster to Imaging

机译：从光栅到成像的电子束通量

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Two architectures of electron beam tools are presented: single beam MEBES Exara designed and built by Etec Systems for mask writing, and the Reflected E-Beam Lithography tool (REBL), designed and built by KLA-Tencor under a DARPA Agreement No. HR0011-07-9-0007. Both tools have implemented technologies not used before to achieve their goals. The MEBES X, renamed Exara for marketing purposes, used an air bearing stage running in vacuum to achieve smooth continuous scanning. The REBL used 2 dimensional imaging to distribute charge to a 4k pixel swath to achieve writing times on the order of 1 wafer per hour, scalable to throughput approaching optical projection tools. Three stage architectures were designed for continuous scanning of wafers: linear maglev, rotary maglev, and dual linear maglev.

机译：介绍了两种电子束工具的体系结构：由Etec Systems设计和制造的用于掩模写入的单束MEBES Exara，以及由KLA-Tencor根据DARPA协议编号HR0011-设计和制造的反射电子束光刻工具（REBL）。 07-9-0007。两种工具都实现了以前未曾实现其目标的技术。 MEBES X（出于市场营销目的更名为Exara）使用了真空运行的空气轴承台，以实现平稳的连续扫描。 REBL使用二维成像将电荷分配到4k像素区域，以达到每小时1个晶圆数量级的写入时间，可扩展至接近光学投影工具的吞吐量。设计了用于晶圆连续扫描的三阶段架构：线性磁悬浮，旋转磁悬浮和双线性磁悬浮。

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《Electron Technology Conference》|2016年|1017503.1-1017503.9|共9页
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Marek Zywno;
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Air bearings; magnetic levitation; e-beam mask writing; direct write;

机译：空气轴承;磁悬浮电子束口罩写作;直接写;
入库时间 2022-08-26 14:31:16

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Electron Beam Throughput from Raster to Imaging

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