Projections of Earth's technosphere. I. Scenario modeling, worldbuilding, and overview of remotely detectable technosignatures

Jacob Haqq-Misra, George Profitiliotis, Ravi Kopparapu
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Abstract

This study uses methods from futures studies to develop a set of ten self-consistent scenarios for Earth's 1000-year future, which can serve as examples for defining technosignature search strategies. We apply a novel worldbuilding pipeline that evaluates the dimensions of human needs in each scenario as a basis for defining the observable properties of the technosphere. Our scenarios include three with zero-growth stability, two that have collapsed into a stable state, one that oscillates between growth and collapse, and four that continue to grow. Only one scenario includes rapid growth that could lead to interstellar expansion. We examine absorption spectral features for a few scenarios to illustrate that nitrogen dioxide can serve as a technosignature to distinguish between present-day Earth, pre-agricultural Earth, and an industrial 1000-year future Earth. Three of our scenarios are spectrally indistinguishable from pre-agricultural Earth, even though these scenarios include expansive technospheres. Up to nine of these scenarios could represent steady-state examples that could persist for much longer timescales, and it remains possible that short-duration technospheres could be the most abundant. Our scenario set provides the basis for further systematic thinking about technosignature detection as well as for imagining a broad range of possibilities for Earth's future.
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地球技术层的预测。I. 情景建模、世界构建和遥感技术特征概述
本研究利用未来研究的方法,为地球的 1000 年未来制定了一套数十个自洽的情景,这些情景可以作为定义技术特征搜索策略的样本。我们采用了一个新颖的世界构建管道,在每个情景中评估人类需求的各个层面,以此作为定义技术圈可观测属性的基础。我们的情景包括三个零增长的稳定状态,两个坍缩到稳定状态,一个在增长和坍缩之间摇摆,第四个继续增长。只有一种情况包括可能导致星际膨胀的快速增长。我们研究了几种情景的吸收光谱特征,以说明二氧化氮可以作为一种技术特征来区分现今地球、前农业地球和未来 1000 年的工业地球。我们的三个情景从光谱上看与前农业时代的地球无法区分,尽管这些情景包括了广阔的技术圈。我们的情景集为进一步系统地思考技术信号探测以及想象地球未来的各种可能性提供了基础。
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