宇宙人の活動を示唆する温室効果ガスの可能性(Telltale greenhouse gases could signal alien activity)

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2024-06-25 カリフォルニア大学リバーサイド校(UCR)

カリフォルニア大学リバーサイド校の新しい研究によると、エイリアンが惑星を温暖化させた場合、その証拠として人工的な温室効果ガスが検出される可能性があります。この研究は、既存の技術、例えばジェームズ・ウェッブ宇宙望遠鏡を使って、他の太陽系外惑星の大気中でこれらのガスを低濃度でも検出できるとしています。これらのガスは自然界にはほとんど存在せず、人為的に製造されるため、検出されれば知的生命体の存在を示す技術的証拠(テクノシグネチャー)となります。提案されたガスには、メタン、エタン、プロパンのフッ素化物や、窒素とフッ素、硫黄とフッ素からなるガスが含まれます。これらのガスは非常に効果的な温室効果ガスで、少量でも惑星の気候を大きく変えることができます。研究チームは、TRAPPIST-1系をモデルとしてシミュレーションを行い、この技術が将来のミッションで有望なことを示しました。

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太陽系外惑星テクノシグネチャーとしての人工温室効果ガス Artificial Greenhouse Gases as Exoplanet Technosignatures

Edward W. Schwieterman, Thomas J. Fauchez, Jacob Haqq-Misra, Ravi K. Kopparapu, Daniel Angerhausen, Daria Pidhorodetska, Michaela Leung, Evan L. Sneed, and Elsa Ducrot
The Astrophysical Journal  Published: 2024 June 25
DOI:10.3847/1538-4357/ad4ce8

宇宙人の活動を示唆する温室効果ガスの可能性(Telltale greenhouse gases could signal alien activity)

Abstract

Atmospheric pollutants such as chlorofluorocarbons and NO2 have been proposed as potential remotely detectable atmospheric technosignature gases. Here we investigate the potential for artificial greenhouse gases including CF4, C2F6, C3F8, SF6, and NF3 to generate detectable atmospheric signatures. In contrast to passive incidental by-products of industrial processes, artificial greenhouse gases would represent an intentional effort to change the climate of a planet with long-lived, low-toxicity gases and would possess low false positive potential. An extraterrestrial civilization may be motivated to undertake such an effort to arrest a predicted snowball state on their home world or to terraform an otherwise uninhabitable terrestrial planet within their system. Because artificial greenhouse gases strongly absorb in the thermal mid-infrared window of temperate atmospheres, a terraformed planet will logically possess strong absorption features from these gases at mid-infrared wavelengths (∼8–12 μm), possibly accompanied by diagnostic features in the near-infrared. As a proof of concept, we calculate the needed observation time to detect 1 [10](100) ppm of C2F6/C3F8/SF6 on TRAPPIST-1 f with JWST MIRI’s Low Resolution Spectrometer (LRS) and NIRSpec. We find that a combination of 1[10](100) ppm each of C2F6, C3F8, and SF6 can be detected with a signal-to-noise ratio ≧ 5 in as few as 25[10](5) transits with MIRI/LRS. We further explore mid-infrared direct-imaging scenarios with the Large Interferometer for Exoplanets mission concept and find these gases are more detectable than standard biosignatures at these concentrations. Consequently, artificial greenhouse gases can be readily detected (or excluded) during normal planetary characterization observations with no additional overhead.

1701物理及び化学
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