Gemini Planet Imager observational calibrations XV: instrument calibrations after six years on sky

Ground-based and Airborne Instrumentation for Astronomy VIII Pub Date : 2020-12-13 DOI:10.1117/12.2561071

R. D. Rosa, T. Esposito, A. Gibbs, V. Bailey, M. Fitzgerald, J. Chilcote, G. Duchêne, Q. Konopacky, B. Macintosh, M. Millar-Blanchaer, M. Nguyen, E. Nielsen, M. Perrin, J. Rameau, J. Wang

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引用次数: 1

Abstract

The Gemini Planet Imager (GPI) is a high-contrast adaptive optics instrument designed to detect and characterize substellar companions and circumstellar debris disks around nearby young stars using infrared integral field spectroscopy and polarimetry. GPI has been in routine operations at Gemini South for the past six years. Because precise astrometry and photometry of exoplanets is critical to GPI's science, we undertook extensive efforts both in-lab and on-sky to refine the astrometric and photometric calibration of the instrument. We describe revisions to the GPI Data Reduction Pipeline (DRP) that account for these revised calibrations, and that fix several issues identified over the previous six years, including some subtle issues affecting astrometric calibrations caused by a drift of the instrument’s clock. These calibrations are critical for the interpretation of observations obtained with GPI, and for a comparison with measurements from other high-contrast imaging instruments.

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双子座行星成像仪观测校准XV:仪器校准六年后的天空

双子座行星成像仪(GPI)是一种高对比度自适应光学仪器，旨在利用红外积分场光谱和偏振法检测和表征附近年轻恒星周围的恒星伴星和星周碎片盘。在过去的六年里，GPI一直在双子座南部进行常规操作。由于系外行星的精确天体测量和光度测量对GPI的科学至关重要，我们在实验室和天空中进行了广泛的努力，以完善仪器的天体测量和光度校准。我们描述了对GPI数据简化管道(DRP)的修订，该修订解释了这些修订后的校准，并修复了过去六年中发现的几个问题，包括一些影响天体测量校准的微妙问题，这些问题是由仪器时钟漂移引起的。这些校准对于解释使用GPI获得的观测结果以及与其他高对比度成像仪器的测量结果进行比较至关重要。

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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