Optimizing a cleaning process for multilayer-dielectric- (MLD) diffraction gratings

B. Ashe, C. Giacofei, G. Myhre, A. Schmid
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引用次数: 21

Abstract

A critical component for the OMEGA EP short-pulse petawatt laser system is the grating compressor chamber (GCC). This large (12,375 ft3) vacuum chamber contains critical optics where laser-pulse compression is performed at the output of the system on two 40-cm-sq-aperture, IR (1054-nm) laser beams. Critical to this compression, within the GCC, are four sets of tiled multilayer-dielectric- (MLD) diffraction gratings that provide the capability for producing 2.6-kJ output IR energy per beam at 10 ps. The primary requirements for these large-aperture (43-cm × 47-cm) gratings are diffraction efficiencies greater than 95%, peak-to-valley wavefront quality of less than λ/10 waves, and laser-induced-damage thresholds greater than 2.7 J/cm2 at 10-ps measured beam normal. Degradation of the grating laser-damage threshold due to adsorption of contaminants from the manufacturing process must be prevented to maintain system performance. In this paper we discuss an optimized cleaning process to achieve the OMEGA EP requirements. The fabrication of MLD gratings involves processes that utilize a wide variety of both organic materials (photoresist processes) and inorganic materials (metals and metal oxides) that can affect the final cleaning process. A number of these materials have significant optical absorbance; therefore, incomplete cleaning of these residues may result in the MLD gratings experiencing laser damage.
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优化多层介质(MLD)衍射光栅的清洗工艺
欧米茄EP短脉冲佩瓦激光系统的关键部件是光栅压缩室(GCC)。这个大(12,375平方英尺)的真空室包含关键光学元件,其中激光脉冲压缩在系统的输出端对两个40平方厘米孔径的红外(1054纳米)激光束进行压缩。在GCC中,对这种压缩至关重要的是四组平铺多层介质(MLD)衍射光栅,它们提供了在10 ps下每束产生2.6 kj输出红外能量的能力。这些大孔径(43 cm × 47 cm)光栅的主要要求是衍射效率大于95%,峰谷波前质量小于λ/10波,并且在10 ps测量光束法向下激光诱导损伤阈值大于2.7 J/cm2。必须防止由于制造过程中吸附污染物而导致的光栅激光损伤阈值的退化,以保持系统性能。本文讨论了一种优化的清洗工艺,以达到OMEGA - EP的要求。MLD光栅的制造涉及到利用各种有机材料(光刻胶工艺)和无机材料(金属和金属氧化物)的工艺,这些材料会影响最终的清洁过程。这些材料中有许多具有显著的光学吸光度;因此,这些残留物的不完全清洗可能导致MLD光栅遭受激光损伤。
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