地球に似たエイリアン文明は我々を探知できるか？(Could an Earth-like alien civilization detect us?)

2025-02-07

2025-02-05 ペンシルベニア州立大学(PennState)

ペンシルベニア州立大学の天文学者らを含む研究チームは、地球外文明が地球をどの程度検出可能かを理論的に調査しました。研究によれば、地球のプラネタリーレーダーからの電波信号は、最大で約12,000光年先まで検出可能であり、地球の最も検出しやすい技術的兆候とされています。また、二酸化窒素などの大気中の化学物質による技術的兆候は、ハビタブル・ワールズ・オブザーバトリー（HWO）のような技術を持つ文明であれば、約5.7光年先から検出できる可能性があります。さらに、地球に近づくにつれ、都市の灯りやレーザー通信、人工衛星などの人為的な兆候が同時に検出される可能性が高まります。この研究は、地球の技術的兆候を多波長で理解し、地球外知的生命体の探索に役立つ枠組みを提供するものです。

＜関連情報＞

地球は地球を検知する：現在の技術で地球のテクノシグネチャーを検出できる距離は？ Earth Detecting Earth: At What Distance Could Earth’s Constellation of Technosignatures Be Detected with Present-day Technology?

Sofia Z. Sheikh, Macy J. Huston, Pinchen Fan, Jason T. Wright, Thomas Beatty, Connor Martini, Ravi Kopparapu, and Adam Frank
The Astronomical Journal Published: 2025 February 3
DOI:10.3847/1538-3881/ada3c7

Abstract

The field of Search for Extraterrestrial Intelligence (SETI) searches for “technosignatures” could provide the first detection of life beyond Earth through the technology that an extraterrestrial intelligence may have created. Any given SETI survey, if no technosignatures are detected, should set upper limits based on the kinds of technosignatures it should have been able to detect; the sensitivity of many SETI searches requires that their target sources (e.g., Dyson spheres or Kardashev II/III level radio transmitters) emit with power far exceeding the kinds of technology humans have developed. In this paper, we instead turn our gaze Earthward, minimizing the axis of extrapolation by only considering transmission and detection methods commensurate with an Earth 2024 level. We evaluate the maximum distance of detectability for various present-day Earth technosignatures—radio transmissions, atmospheric technosignatures, optical and infrared signatures, and objects in space or on planetary surfaces—using only present-day Earth instruments, providing one of the first fully cross-wavelength comparisons of the growing toolbox of SETI techniques. In this framework, we find that Earth’s space-detectable signatures span 13 orders of magnitude in detectability, with intermittent, celestially targeted radio transmission (i.e., planetary radar) beating out its nearest nonradio competitor by a factor of 10³ in detection distance. This work highlights the growing range of ways that exoplanet technosignatures may be expressed, the growing complexity and visibility of the human impact upon our planet, and the continued importance of the radio frequencies in SETI.