Using synthetic disk-integrated reflectance spectra to constrain direct imaging sensitivity requirements for a Mars-like exoplanet

IF 1.8 4区 物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS Planetary and Space Science Pub Date : 2024-08-02 DOI:10.1016/j.pss.2024.105944
C.A. Wolfe , T.D. Robinson
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Abstract

The 2020 Decadal Survey on Astronomy and Astrophysics 1 recommended the prioritization of a space-based telescope capable of directly characterizing Earth-like exoplanets in reflected light. The planned suite of instruments onboard such a mission are expected to provide disk-integrated spectra with moderate spectral resolution and signal-to-noise (SNR). Although the detection and characterization of Earth-like exoplanets remains the primary focus of such a mission, land planets with limited available water, such as Mars, may be much more common. Mars-like exoplanets, therefore, are an equally significant set of targets when investigating the diverse climatologies and potential habitability of other worlds, especially if our own Solar System is any indication of planetary diversity. In this study, we constrain the direct imaging sensitivity requirements for observing and characterizing Mars-like exoplanets with the goal of informing future telescope design and mission planning. Employing an instrument noise model simulating a coronagraph-equipped, space-based telescope, spatially- and spectrally-resolved synthetic observations of Mars are produced. We evaluate the direct imaging sensitivity requirements across a range of wavelengths, from the ultraviolet (UV) to near-infrared (near-IR), to enable the spectral characterization of key atmospheric and surface features from disk-integrated reflectance spectra. Detectability at a given SNR is assessed through optical wavelength integration times for a range of phase angles, host star spectral types, and levels of atmospheric dustiness. Our results indicate that a Decadal-recommended space telescope featuring an aperture of 6-m is likely only proficient in detecting Mars-like exoplanets around K-type stars located within a 10 parsec (pc) radius from Earth. Furthermore, we demonstrate that when integrating over visible and near-IR wavelengths, required exposure times to detect such a planet are reasonable, especially near full phase angles. In the context of upcoming and proposed observatories, such as the Habitable Exoplanet Observatory (HabEx) and Large UV/Optical/IR Surveyor (LUVOIR), our findings provide valuable insights into the direct imaging capabilities and optimal observational strategies needed for detecting and studying Mars-like exoplanets.

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利用合成磁盘积分反射光谱来限制类火星系外行星的直接成像灵敏度要求
2020 年天文学和天体物理学十年调查 1 建议优先考虑能够通过反射光直接描述类地 系外行星特征的天基望远镜。计划搭载在这一飞行任务上的成套仪器预计将提供具有中等光谱分辨率和信噪比(SNR)的磁盘综合光谱。尽管探测类地系外行星并确定其特征仍然是此类飞行任务的主要重点,但像火星这样可用水量有限的陆地行星可能更为常见。因此,在研究其他世界的不同气候和潜在宜居性时,类似火星的系外行星是一组同样重要的目标,特别是如果我们自己的太阳系是行星多样性的标志的话。在这项研究中,我们对观测和描述类火星系外行星的直接成像灵敏度要求进行了限制,目的是为未来的望远镜设计和任务规划提供信息。我们利用仪器噪声模型模拟了一台配备日冕仪的天基望远镜,制作了火星的空间和光谱分辨合成观测数据。我们评估了从紫外线(UV)到近红外(Near-IR)等一系列波长的直接成像灵敏度要求,以便能够通过磁盘积分反射光谱对关键大气和表面特征进行光谱定性。通过一系列相位角、主星光谱类型和大气尘埃度的光学波长积分时间,对特定信噪比下的可探测性进行评估。我们的研究结果表明,十年期推荐的口径为 6 米的太空望远镜可能只能探测到距离地球 10 皮秒(pc)半径范围内 K 型恒星周围的类火星系外行星。此外,我们还证明,在对可见光和近红外波长进行整合时,探测此类行星所需的曝光时间是合理的,尤其是在全相角附近。对于即将建立和拟建的观测站,如可居住系外行星观测站(HabEx)和大型紫外/光学/红外巡天探测器(LUVOIR),我们的发现为探测和研究类火星系外行星所需的直接成像能力和最佳观测策略提供了宝贵的见解。
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来源期刊
Planetary and Space Science
Planetary and Space Science 地学天文-天文与天体物理
CiteScore
5.40
自引率
4.20%
发文量
126
审稿时长
15 weeks
期刊介绍: Planetary and Space Science publishes original articles as well as short communications (letters). Ground-based and space-borne instrumentation and laboratory simulation of solar system processes are included. The following fields of planetary and solar system research are covered: • Celestial mechanics, including dynamical evolution of the solar system, gravitational captures and resonances, relativistic effects, tracking and dynamics • Cosmochemistry and origin, including all aspects of the formation and initial physical and chemical evolution of the solar system • Terrestrial planets and satellites, including the physics of the interiors, geology and morphology of the surfaces, tectonics, mineralogy and dating • Outer planets and satellites, including formation and evolution, remote sensing at all wavelengths and in situ measurements • Planetary atmospheres, including formation and evolution, circulation and meteorology, boundary layers, remote sensing and laboratory simulation • Planetary magnetospheres and ionospheres, including origin of magnetic fields, magnetospheric plasma and radiation belts, and their interaction with the sun, the solar wind and satellites • Small bodies, dust and rings, including asteroids, comets and zodiacal light and their interaction with the solar radiation and the solar wind • Exobiology, including origin of life, detection of planetary ecosystems and pre-biological phenomena in the solar system and laboratory simulations • Extrasolar systems, including the detection and/or the detectability of exoplanets and planetary systems, their formation and evolution, the physical and chemical properties of the exoplanets • History of planetary and space research
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