Sensitivity to Sub-Io-sized Exosatellite Transits in the MIRI LRS Light Curve of the Nearest Substellar Worlds

The Astrophysical Journal Letters Pub Date : 2025-10-09 DOI:10.3847/2041-8213/ae09ab

Andrew Householder, Mary Anne Limbach, Beth Biller, Brooke Kotten, Mikayla J. Wilson, Johanna M. Vos, Andrew Skemer, Andrew Vanderburg, Ben J. Sutlieff, Xueqing Chen, Ian J. M. Crossfield, Nicolas Crouzet, Trent Dupuy, Jacqueline Faherty, Pengyu Liu, Elena Manjavacas, Allison McCarthy, Caroline V. Morley, Philip S. Muirhead, Natalia Oliveros-Gomez, Genaro Suárez, Xianyu Tan and Yifan Zhou

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引用次数: 0

Abstract

JWST’s unprecedented sensitivity enables precise spectrophotometric monitoring of substellar worlds, revealing atmospheric variability driven by mechanisms operating across different pressure levels. This same precision now permits exceptionally sensitive searches for transiting exosatellites—small terrestrial companions to these worlds. Using a novel simultaneous dual-band search method to address host variability, we present a search for transiting exosatellites in an 8 hr JWST/MIRI LRS light curve of the nearby (2.0 pc) substellar binary WISE J1049–5319 AB, composed of two ∼30 MJup brown dwarfs separated by 3.5 au and viewed nearly edge-on. Although we detect no statistically significant transits, our injection/recovery tests demonstrate sensitivity to satellites as small as 0.275 R⊕ (0.96 RIo or ∼1 lunar radius), corresponding to 300 ppm transit depths, and satellite-to-host mass ratios >10−6. This approach paves the way for detecting Galilean moon analogs around directly imaged brown dwarfs, free-floating planets, and wide-orbit exoplanets, dozens of which are already scheduled for JWST light-curve monitoring. In our solar system, each giant planet hosts on average 3.5 moons above this threshold, suggesting that JWST now probes a regime where such companions are expected to be abundant. The technique and sensitivities demonstrated here mark a critical step toward detecting exosatellites and ultimately enabling constraints on the occurrence rates of small terrestrial worlds orbiting 1–70 MJup hosts.

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最近的次恒星世界的MIRI LRS光曲线对亚io大小的外卫星凌日的敏感性

JWST前所未有的灵敏度使得精确的分光光度监测亚恒星世界，揭示在不同压力水平下运行的机制驱动的大气变化。现在，同样的精确度使得对凌日的系外卫星——这些行星的小型地球伙伴——的搜索变得异常灵敏。利用一种新的同时双频搜索方法来解决宿主变异性，我们提出了在附近（2.0 pc）的恒星双星WISE J1049-5319 AB的8小时JWST/MIRI LRS光曲线中搜索凌日系外卫星的方法，该双星由两颗约30 MJup的褐矮星组成，相距3.5 au，几乎是侧面的。虽然我们没有探测到统计上显著的凌日现象，但我们的注入/回收试验表明，对卫星的灵敏度小至0.275 R⊕（0.96里约热内卢或1个月球半径），对应于300 ppm的凌日深度，以及卫星与宿主的质量比>10−6。这种方法为探测直接成像的褐矮星、自由漂浮行星和宽轨道系外行星周围的伽利略卫星类似物铺平了道路，JWST已经计划对其中的几十颗进行光曲线监测。在我们的太阳系中，每颗巨行星平均拥有超过这个阈值的3.5颗卫星，这表明JWST现在正在探索一个这样的伴星预计会很丰富的区域。这里展示的技术和灵敏度标志着探测外卫星的关键一步，并最终能够限制围绕1-70 MJup宿主运行的小型陆地世界的发生率。

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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The Astrophysical Journal Letters

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