Large aperture optically contacted MgF2 retarders for calibration and modulation at DKIST

IF 1.7 3区 工程技术 Q2 ENGINEERING, AEROSPACE
D. Harrington
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引用次数: 0

Abstract

Abstract. Modern astronomical polarimeters often require simultaneous operation of multiple instruments over broad wavelength ranges. The 4 m DKIST solar telescope will soon cover 0.38 to 4.6  μm with at least 12 independent narrow band polarimeters, all in quasi-simultaneous operation. Calibration can be efficiently performed over this entire bandpass using our elliptical retarder design, achieved with just two optically contacted MgF2 crystal retarder pairs. Calibration requires very well-characterized, uniform, defect-free retarders and polarizers. I report here on the successful development of four extremely large aperture (d  =  120  mm) optically contacted MgF2 retarder pairs used to make a DKIST calibrator and a modulator for the Cryo-NIRSP instrument. All four crystal pairs have clear apertures free of defects. New procedures deliver fast axis alignment in the range of 0.1 deg to 0.2 deg post contact bonding. For the calibrator crystals, a new process was developed using deterministic fluid jet polishing driven by retardance mapping to achieve stringent retardance spatial uniformity. I show that transmitted wavefront error is not a sufficient proxy for retardance polishing. Polishing softer MgF2 retarder crystals required substantial development to simultaneously achieve flatness, roughness, and retardance uniformity. The optical contact bond ensures there are no bonding agents (oils, epoxies) with spectral absorption bands in the entire 0.3 to 6  μm bandpass without any possibility for leaks or degradation. These four crystals will be used in DKIST and Cryo-NIRSP in a 300 W solar beam and are anticipated to mitigate heating, stability, and UV irradiation issues. I use the Berreman calculus to compute retarder depolarization, with >10  %   magnitudes found at the shortest wavelengths after including typical crystal optic axis cutting errors and incidence angle variation in converging beams.
大孔径光学接触MgF2缓速器在DKIST的校准和调制
摘要现代天文偏振光计通常需要在较宽的波长范围内同时操作多个仪器。DKIST的4米太阳望远镜将很快覆盖0.38至4.6 μm,至少有12个独立的窄带偏振计,所有这些都是准同时运行的。使用我们的椭圆缓速器设计,可以在整个带通上有效地进行校准,只需两个光学接触的MgF2晶体缓速器对即可实现。校准需要特性非常好、均匀、无缺陷的缓速器和偏振器。我在这里报告了四个超大孔径(d = 120 mm)光学接触MgF2缓速器对的成功开发,用于制造DKIST校准器和Cryo-NIRSP仪器的调制器。所有四对晶体都有清晰的无缺陷的孔径。新工艺在0.1°到0.2°的接触键合范围内提供快速轴对准。针对校准器晶体,提出了一种基于延迟映射驱动的确定性流体射流抛光新工艺,以实现严格的延迟空间均匀性。我表明透射波前误差不是延迟抛光的充分代表。抛光较软的MgF2缓速剂晶体需要大量的发展,以同时达到平整度,粗糙度和缓速均匀性。光接触键确保在整个0.3 ~ 6 μm带通中没有具有光谱吸收带的粘合剂(油、环氧树脂),没有任何泄漏或降解的可能性。这四种晶体将在DKIST和Cryo-NIRSP中用于300w的太阳光束,并有望减轻加热,稳定性和紫外线照射问题。我使用Berreman演算来计算缓速器去极化,在包括典型的晶体光轴切割误差和会聚光束的入射角变化后,在最短波长处发现bbb10 %等。
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来源期刊
CiteScore
4.40
自引率
13.00%
发文量
119
期刊介绍: The Journal of Astronomical Telescopes, Instruments, and Systems publishes peer-reviewed papers reporting on original research in the development, testing, and application of telescopes, instrumentation, techniques, and systems for ground- and space-based astronomy.
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