Performance of Kitt Peak’s Mayall 4-meter telescope during DESI commissioning

Ground-based and Airborne Instrumentation for Astronomy VIII Pub Date : 2020-12-13 DOI:10.1117/12.2574776

A. Meisner, B. Abareshi, A. Dey, C. Rockosi, R. Joyce, D. Sprayberry, R. Besuner, K. Honscheid, D. Kirkby, H. Kong, M. Landriau, M. Levi, Ting S. Li, B. Marshall, P. Martini, A. Ross, D. Brooks, P. Doel, Y. Duan, E. Gaztañaga, C. Magneville, F. Prada, M. Schubnell, G. Tarlé

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引用次数: 4

Abstract

In preparation for the Dark Energy Spectroscopic Instrument (DESI), a new top end was installed on the Mayall 4-meter telescope at Kitt Peak National Observatory. The refurbished telescope and the DESI instrument were successfully commissioned on sky between 2019 October and 2020 March. Here we describe the pointing, tracking and imaging performance of the Mayall telescope equipped with its new DESI prime focus corrector, as measured by six guider cameras sampling the outer edge of DESI’s focal plane. Analyzing ~500,000 guider images acquired during commissioning, we find a median delivered image FWHM of 1.1 arcseconds (in the r-band at 650 nm), with the distribution extending to a best-case value of ~0.6 arcseconds. The point spread function is well characterized by a Moffat profile with a power-law index of β ≈ 3.5 and little dependence of β on FWHM. The shape and size of the PSF delivered by the new corrector at a field angle of 1.57 degrees are very similar to those measured with the old Mayall corrector on axis. We also find that the Mayall achieves excellent pointing accuracy (several arcseconds RMS) and minimal open-loop tracking drift (< 1 milliarcsecond per second), improvements on the telecope’s pre-DESI performance. In the future, employing DESI’s active focus adjustment capabilities will likely further improve the Mayall/DESI delivered image quality.

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基特峰Mayall 4米望远镜在DESI调试期间的表现

为了准备暗能量光谱仪器(DESI)，在基特峰国家天文台的Mayall 4米望远镜上安装了一个新的顶端。翻新后的望远镜和DESI仪器在2019年10月至2020年3月期间成功投入使用。在这里，我们描述了配备了新型DESI定焦校正器的Mayall望远镜的指向、跟踪和成像性能，这些性能是通过对DESI焦平面外缘进行采样的六个引导相机来测量的。通过分析调试期间获得的约50万张导频图像，我们发现，在r波段650 nm处，传递图像的FWHM中值为1.1弧秒，分布扩展到最佳情况值约0.6弧秒。点扩展函数具有莫法特曲线的特征，幂律指数为β≈3.5，β对FWHM的依赖性很小。在1.57度的视场角下，新校正器输出的PSF的形状和大小与在轴上使用旧Mayall校正器测量的结果非常相似。我们还发现Mayall实现了出色的指向精度(几角秒RMS)和最小的开环跟踪漂移(< 1毫角秒每秒)，改进了望远镜的前desi性能。在未来，采用DESI的主动对焦调节功能可能会进一步提高Mayall/DESI提供的图像质量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Ground-based and Airborne Instrumentation for Astronomy VIII

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