Tunable 30 GHz laser frequency comb for astronomical spectrograph characterization and calibration

arXiv - PHYS - Optics Pub Date : 2024-08-05 DOI:arxiv-2408.02627

Pooja Sekhar, Molly Kate Kreider, Connor Fredrick, Joe P Ninan, Chad F Bender, Ryan Terrien, Suvrath Mahadevan, Scott A Diddams

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Abstract

The search for earth-like exoplanets with the Doppler radial velocity technique is an extremely challenging and multifaceted precision spectroscopy problem. Currently, one of the limiting instrumental factors in reaching the required long-term $10^{-10}$ level of radial velocity precision is the defect-driven sub-pixel quantum efficiency variations in the large-format detector arrays used by precision echelle spectrographs. Tunable frequency comb calibration sources that can fully map the point spread function across a spectrograph's entire bandwidth are necessary for quantifying and correcting these detector artifacts. In this work, we demonstrate a combination of laser frequency and mode spacing control that allows full and deterministic tunability of a 30 GHz electro-optic comb together with its filter cavity. After supercontinuum generation, this gives access to any optical frequency across 700 - 1300 nm. Our specific implementation is intended for the comb deployed at the Habitable Zone Planet Finder spectrograph and its near-infrared Hawaii-2RG array, but the techniques apply to all laser frequency combs used for precision astronomical spectrograph calibration and other applications that require broadband tuning.

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用于天文光谱仪鉴定和校准的 30 GHz 可调谐激光频率梳

利用多普勒径向速度技术寻找类地系外行星是一个极具挑战性的多方面精密光谱问题。目前，要达到所需的长期 10^{-10}$ 的径向速度精度水平，其中一个限制性的仪器因素是精密梯度光谱仪所使用的大尺寸探测器阵列中由缺陷驱动的亚像素量子效率变化。可调谐的组合频率校准源能够在摄谱仪的整个带宽范围内完全映射点扩散函数，这对于量化和校正这些探测器伪影是非常必要的。在这项工作中，我们展示了一种激光频率和模式间距控制的组合，它允许对 30 GHz 的电光梳及其滤波器腔进行完全和确定的可调性。我们的具体实现是针对部署在宜居带行星发现者摄谱仪及其近红外夏威夷-2RG 阵列上的梳状器，但这些技术适用于所有用于精密天文摄谱仪校准和其他需要宽带调谐的应用的激光频率梳状器。

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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arXiv - PHYS - Optics

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