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    • 3. 发明授权
    • Soft x-ray reduction camera for submicron lithography
    • 用于亚微米光刻的软X射线照相机
    • US5003567A
    • 1991-03-26
    • US308332
    • 1989-02-09
    • Andrew M. HawrylukLynn G. Seppala
    • Andrew M. HawrylukLynn G. Seppala
    • G02B17/06G03F7/20
    • B82Y10/00G02B17/0621G03F7/2039G03F7/70033G03F7/70233
    • Soft x-ray projection lithography can be performed using x-ray optical components and spherical imaging lenses (mirrors), which form an x-ray reduction camera. The x-ray reduction is capable of projecting a 5x demagnified image of a mask onto a resist coated wafer using 4.5 nm radiation. The diffraction limited resolution of this design is about 135 nm with a depth of field of about 2.8 microns and a field of view of 0.2 cm.sup.2. X-ray reflecting masks (patterned x-ray multilayer mirrors) which are fabricated on thick substrates and can be made relatively distortion free are used, with a laser produced plasma for the source. Higher resolution and/or larger areas are possible by varying the optic figures of the components and source characteristics.
    • 可以使用形成x射线减少相机的X射线光学部件和球形成像透镜(反射镜)来执行软X射线投影光刻。 X射线减少能够使用4.5nm辐射将掩模的5x缩小图像投影到抗蚀剂涂覆的晶片上。 该设计的衍射限制分辨率为约135nm,景深为约2.8微米,视场为0.2cm 2。 使用制造在厚基板上并且可以相对无变形的X射线反射掩模(图案化的X射线多层反射镜),其中激光产生用于源的等离子体。 通过改变组件的光学图形和源特性,可以实现更高的分辨率和/或更大的面积。
    • 4. 发明授权
    • Critical illumination condenser for x-ray lithography
    • 用于x射线光刻的临界照明电容器
    • US5737137A
    • 1998-04-07
    • US617719
    • 1996-04-01
    • Simon J. CohenLynn G. Seppala
    • Simon J. CohenLynn G. Seppala
    • G02B19/00G03F7/20G02B5/10G02B17/00G21K1/06G21K5/00
    • G03F7/70091G02B19/0023G02B19/0047G02B19/0095G03F7/70175G03F7/702
    • A critical illumination condenser system, particularly adapted for use in extreme ultraviolet (EUV) projection lithography based on a ring field imaging system and a laser produced plasma source. The system uses three spherical mirrors and is capable of illuminating the extent of the mask plane by scanning either the primary mirror or the laser plasma source. The angles of radiation incident upon each mirror of the critical illumination condenser vary by less than eight (8) degrees. For example, the imaging system in which the critical illumination condenser is utilized has a 200 .mu.m source and requires a magnification of 26.times.. The three spherical mirror system constitutes a two mirror inverse Cassegrain, or Schwarzschild configuration, with a 25% area obstruction (50% linear obstruction). The third mirror provides the final pupil and image relay. The mirrors include a multilayer reflective coating which is reflective over a narrow bandwidth.
    • 一种关键的照明冷凝器系统,特别适用于基于环形场成像系统和激光产生等离子体源的极紫外(EUV)投影光刻技术。 该系统使用三个球面镜,并且能够通过扫描主镜或激光等离子体源来照射掩模平面的程度。 入射到临界照明电容器的每个反射镜上的辐射角度变化小于八(8)度。 例如,其中使用临界照明冷凝器的成像系统具有200μm的源,并且需要26倍的放大倍数。 三个球面镜系统构成了双镜反向卡塞格林(Schsevarschild)或者Schwarzschild配置,具有25%的区域阻塞(50%线性阻塞)。 第三镜提供最终的瞳孔和图像继电器。 镜子包括在窄带宽上反射的多层反射涂层。
    • 6. 发明授权
    • Efficient optical pulse stacker system
    • 高效的光脉冲堆垛机系统
    • US4345212A
    • 1982-08-17
    • US205076
    • 1980-11-10
    • Lynn G. SeppalaRoger A. Haas
    • Lynn G. SeppalaRoger A. Haas
    • H01S3/00H01S3/098
    • H01S3/0057
    • Method and apparatus for spreading and angle-encoding each pulse of a multiplicity of small area, short pulses into several temporally staggered pulses by use of appropriate beam splitters, with the optical elements being arranged so that each staggered pulse is contiguous with one or two other such pulses, and the entire sequence of stacked pulses comprising a single, continuous long pulse. The single long pulse is expanded in area, and then doubly passed through a nonstorage laser amplifier such as KrF. After amplification, the physically separated, angle-encoded and temporally staggered pulses are recombined into a single pulse of short duration. This high intensity output beam is well collimated and may be propagated over long distance, or used for irradiating inertial confinement fusion targets.
    • 用于通过使用适当的分束器将多个小面积短脉冲的每个脉冲扩展和角度编码成若干时间交错脉冲的方法和装置,其中光学元件被布置成使得每个交错脉冲与一个或两个其他 这样的脉冲,并且整个堆叠脉冲序列包括单个连续的长脉冲。 单个长脉冲在面积上扩大,然后双重通过诸如KrF的非存储激光放大器。 在放大之后,物理分离的,角度编码的和时间上交错的脉冲被重组为短持续时间的单个脉冲。 该高强度输出光束是准直的,并且可以在长距离上传播,或者用于照射惯性约束聚变靶。