凯克行星成像仪和表征仪:用于高分辨率系外行星光谱的专用单模光纤注入装置

Ground-based and Airborne Instrumentation for Astronomy VIII Pub Date : 2020-12-13 DOI:10.1117/12.2562836

J. Delorme, N. Jovanovic, D. Echeverri, D. Mawet, J. Wallace, R. Bartos, S. Cetre, P. Wizinowich, S. Ragland, S. Lilley, E. Wetherell, G. Doppmann, Jason J. Wang, Evan C. Morris, J. Ruffio, E. Martin, M. Fitzgerald, G. Ruane, T. Schofield, Nick Suominen, B. Calvin, E. Wang, K. Magnone, C. Johnson, J. Sohn, Ronald A. López, C. Bond, Jacklyn Pezzato, Jorge Llop Sayson, M. Chun, A. Skemer

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引用次数: 24

摘要

凯克行星成像仪和特征仪(KPIC)是一种专门建造的仪器，用于演示最初为系外行星直接成像领域开发的新技术和仪器概念。KPIC位于当前Keck II自适应光学系统的下游，包含一个光纤注入单元(FIU)，能够将自适应光学系统的高对比度成像能力与当前Keck高分辨率红外光谱仪(NIRSPEC)的高色散光谱能力相结合。该仪器于2018年9月部署在凯克，已经用于获取多个感兴趣目标的高分辨率光谱(R < 35000)。在短期内，它将被用于光谱表征已知的直接成像系外行星和低质量棕矮星伴星在北半球可见，光谱分辨率足够高，可以进行旋转和行星径向速度测量，以及大气天气现象的多普勒成像。在这里，我们介绍了FIU的设计，操作单模光纤仪器所需的独特校准程序和系统性能。

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The Keck Planet Imager and Characterizer: A dedicated single-mode fiber injection unit for high resolution exoplanet spectroscopy

The Keck Planet Imager and Characterizer (KPIC) is a purpose-built instrument to demonstrate new tech- nological and instrumental concepts initially developed for the exoplanet direct imaging field. Located downstream of the current Keck II adaptive optic system, KPIC contains a fiber injection unit (FIU) capable of combining the high-contrast imaging capability of the adaptive optic system with the high dispersion spectroscopy capability of the current Keck high resolution infrared spectrograph (NIRSPEC). Deployed at Keck in September 2018, this instrument has already been used to acquire high resolution spectra (R < 35, 000) of multiple targets of interest. In the near term, it will be used to spectrally characterize known directly imaged exoplanets and low-mass brown dwarf companions visible in the northern hemisphere with a spectral resolution high enough to enable spin and planetary radial velocity measurements as well as Doppler imaging of atmospheric weather phenomena. Here we present the design of the FIU, the unique calibration procedures needed to operate a single-mode fiber instrument and the system performance.

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Ground-based and Airborne Instrumentation for Astronomy VIII

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