J. Ge, B. Jacobsen, J. Angel, N. Woolfv, J. Black, M. Lloyd-Hart, P. Gray, R. Fugate
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引用次数: 0
摘要
在星火光学距离(SOR) 1.5 m望远镜上测试了一个原型光学波长超高分辨率梯队交叉分散光谱仪(Woolf et al. 1995;Ge et al. 1996)。据我们所知,这是第一个利用自适应光学系统产生的衍射限制图像的高分辨率光谱仪。由于自适应光学在可见光波段产生的图像锐化,在视觉主导域约为0/D ~ 1/15,因此可以使用高分辨率所需的窄狭缝而不会造成大的光损失。与传统的高分辨率摄谱仪相比,这是一个很大的优势(例如Lambert et al. 1990;Diego et al. 1995)。此外,自适应光学系统固有的较小图像宽度允许订单在芯片上间隔更近,允许同时观察更多订单。
An Optical Ultrahigh Resolution Spectrograph with the Adaptive Optics
A prototype optical wavelength ultrahigh resolution echelle cross-dispersed spectrograph has been tested at the Starfire Optical Range (SOR) 1.5 m telescope (Woolf et al. 1995; Ge et al. 1996). To our knowledge this is the first high resolution spectrograph to take advantage of the diffraction limited images produced by an adaptive optics system. Because of the sharpened images produced by the adaptive optics at visible wavelength, about r0/D ~ 1/15 in the seeing-dominant domain, the narrow slits necessary for high resolution can be used without a large loss of light. This is a great advantage when compared with conventional high resolution spectrographs (e.g. Lambert et al. 1990; Diego et al. 1995). In addition, the smaller image widths inherent with the adaptive optics system allow the orders to be spaced closer together on the chip, allowing more orders to be observed simultaneously.
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