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    • 5. 发明申请
    • LASER THIN FILM POLY-SILICON ANNEALING OPTICAL SYSTEM
    • 激光薄膜聚硅氧烷退火光学系统
    • WO2005053893A3
    • 2005-07-07
    • PCT/US2004037618
    • 2004-11-12
    • CYMER INCPARTLO WILLIAM NDAS PALASH PHUDYMA RUSSELTHOMAS MICHAEL
    • PARTLO WILLIAM NDAS PALASH PHUDYMA RUSSELTHOMAS MICHAEL
    • B23K26/06B23K26/073C30B1/02C30B13/24H01L21/20H01S3/22H01S3/223B23K26/00
    • B23K26/0732B23K26/0622B23K26/0738C30B1/023C30B13/24H01L21/2026
    • A high energy, high repetition rate workpiece surface heating method and apparatus are disclosed which may comprise a pulsed XeF laser operating operating at or above 4000 Hz and producing a laser output light pulse beam at a center wavelength of about 351 nm; an optical system narrowing the laser output light pulse beam to less than 20 µm in a short axis of the laser output light pulse beam and expanding the laser output light pulse beam to form in a long axis of the beam workpiece covering extent of the long axis; the optical system including a field stop intermediate the laser and the workpiece; the workpiece comprising a layer to be heated; wherein the optical system focuses the laser output light pulse beam at a field stop with a magnification sufficient to maintain an intensity profile that has sufficiently steep side walls to allow the field stop to maintain a sufficiently steep beam profile at the workpiece without blocking the beam profile at too high an intensity level 2. The apparatus may also have a high average power in the laser output light pulse beam as delivered to the workpiece and a linebow correction mechanism in a short axis optical assembly. The linebow correction mechanism may comprise a plurality of weak cross cylinders. The system may comprise a catadioptric projection system. The line width due to laser diffraction and divergence may be less than geometric limitations. The system may project adjacent peaks of the nominal XeF spectrum to improve overall depth of focus through the separate center wavelengths of each respective adjacent peak having a different focal plane at the workpiece. The system may comprise a linebow is correction mechanism within a field stop optical assembly correcting linebow at the field stop plane and within a workpiece projection optical assembly correcting linebow at the workpiece plane.
    • 公开了一种高能量,高重复率的工件表面加热方法和装置,其可以包括在4000Hz以上工作的脉冲XeF激光器,并在约351nm的中心波长处产生激光输出光脉冲光束; 将激光输出光脉冲光束在激光输出光脉冲光束的短轴上变窄到小于20μm的光学系统,并且扩大激光输出光脉冲光束以形成长轴的光束工件覆盖范围的长轴 ; 该光学系统包括在激光和工件之间的中止场; 所述工件包括待加热层; 其中所述光学系统将激光输出光脉冲光束在场停止处以足以保持具有足够陡峭侧壁的强度分布的放大倍率来允许场停止在工件处保持足够陡峭的光束轮廓而不阻挡光束轮廓 在太高的强度水平2.该装置还可以在输送到工件的激光输出光脉冲光束中具有高的平均功率,以及在短轴光学组件中具有弯管校正机构。 弯管矫正机构可以包括多个弱交叉圆筒。 该系统可以包括反折射投影系统。 由激光衍射和发散引起的线宽可能小于几何限制。 该系统可以投射标称XeF谱的相邻峰值,以通过在工件处具有不同焦平面的各个相邻峰值的分开的中心波长来提高整体焦深。 系统可以包括在场停止光学组件中的弯头矫正机构,其在场停止平面处以及工件投影光学组件中在工件平面处校正弯头。
    • 6. 发明申请
    • LINE NARROWING APPARATUS WITH HIGH TRANSPARENCY PRISM BEAM EXPANDER
    • 具有高透明度光束扩展器的线性纳米装置
    • WO0019568A8
    • 2000-09-14
    • PCT/US9921324
    • 1999-09-13
    • CYMER INCDAS PALASH PERSHOV ALEXANDER IMORTON RICHARD G
    • DAS PALASH PERSHOV ALEXANDER IMORTON RICHARD G
    • G03F7/20H01S3/03H01S3/08H01S3/1055H01S3/137H01S3/225
    • G03F7/70025G03F7/70041G03F7/70558G03F7/70575H01S3/03H01S3/08009H01S3/1055H01S3/225
    • A grating based line-narrowing apparatus having a prism beam expander with at least four prisms (26, 28, 30, 32). Each prism is positioned at an incidence angle between 67 and 71 degrees. A single layer coating of high refractive index, robust material, such as A1/2O/3, is applied to the hypotenuse face of each prism, providing an efficient, antireflection coating. In a preferred embodiment the incident angle of the four prisms (26, 28, 30, 32) are each at about 68.2 degrees. The laser (21) of the preferred embodiment has similar line narrowing efficiency and bandwith as that for a laser (21) with a 3 prism, ideal multi-layer anti-reflection coated beam expander. The primary benefit of the new four prism (26, 28, 30, 32) arrangement is that the prism coatings should be much less expensive and have greatly increased durability. Applicants have tested the new prisms for 30 million, 10mJ pulses in air with no noticeable degradation. No present day dielectic multi-layer stack coating could survive such exposure.
    • 一种基于光栅的线条变窄装置,具有具有至少四个棱镜(26,28,30,32)的棱镜扩束器。 每个棱镜定位在67和71度之间的入射角。 高折射率的单层涂层,诸如A1 / 2O / 3的坚固材料被施加到每个棱镜的斜边面,从而提供有效的抗反射涂层。 在优选实施例中,四个棱镜(26,28,30,32)的入射角分别为约68.2度。 优选实施例的激光器(21)具有与具有3棱镜,理想的多层抗反射涂覆光束扩展器的激光器(21)相似的线窄化效率和带宽。 新的四棱镜(26,28,30,32)布置的主要优点是棱镜涂层应该便宜得多,并且耐久性大大提高。 申请人已经在空气中测试了新的棱镜3000万,10mJ脉冲,没有明显的退化。 没有现在的介电多层叠层涂层可以经受这样的曝光。
    • 7. 发明申请
    • CONFOCAL PULSE STRETCHER
    • CONFOCAL脉冲拉伸器
    • WO2007126693A3
    • 2008-11-27
    • PCT/US2007007201
    • 2007-03-23
    • CYMER INCDAS PALASH PHOFMANN THOMASLEI GANG
    • DAS PALASH PHOFMANN THOMASLEI GANG
    • H01S3/22
    • H01S3/0057G03F7/7055H01S3/225
    • A gas discharge laser system producing a laser output pulse and a method of operating such a system is disclosed which may comprise a pulse stretcher which may comprise a laser output pulse optical delay initiating optic directing a portion of the laser output pulse along a laser system output pulse optical axis and diverting a portion of the output pulse into an optical delay having an optical delay path and which may comprise a plurality of confocal resonators in series aligned to deliver an output of the optical delay to the laser output pulse optical delay initiating optic; an optical axis alignment mechanism comprising an radial mirror positioning mechanism operable to position the output of the optical delay to the align with the portion of the laser output pulse transmitted along the optical axis of the portion of the laser system output pulse transmitted by the laser output pulse optical delay initiating optic.
    • 公开了一种产生激光输出脉冲的气体放电激光器系统和这种系统的操作方法,其可以包括脉冲展宽器,其可以包括激光输出脉冲光学延迟启动光学器件,以将激光输出脉冲的一部分沿激光系统输出 脉冲光轴并将输出脉冲的一部分转移成具有光学延迟路径的光学延迟,并且可以包括串联对准的多个共焦谐振器,以将光学延迟的输出传递到激光输出脉冲光学延迟启动光学器件; 光轴对准机构,其包括径向镜定位机构,其可操作以将光学延迟的输出定位成与激光输出脉冲的沿激光输出脉冲发射的激光系统输出脉冲部分的光轴传输的部分对准 脉冲光学延迟启动光学器件。