Upper limits on the cosmic abundance of Kardashev Type III radio-broadcasting populations are set at less than one per 10^17 stars using radio source counts and commensal SETI field limits.
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3 Pith papers cite this work. Polarity classification is still indexing.
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Simulations across ten scenarios yield duty cycles of technological activity from 0.38 to 1.00, with resource depletion rate and post-collapse recovery fraction as the dominant levers shaping persistence and effective detectability.
A workshop report recommends anomaly detection on existing telescope data to search for technosignatures from advanced minds powered by supermassive black holes.
citing papers explorer
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Artificial Broadcasts as Galactic Populations: III. Constraints on Radio Broadcasts from the Cosmic Population of Inhabited Galaxies
Upper limits on the cosmic abundance of Kardashev Type III radio-broadcasting populations are set at less than one per 10^17 stars using radio source counts and commensal SETI field limits.
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Projections of Earth's Technosphere: Civilization Collapse-Recovery Dynamics and Detectability
Simulations across ten scenarios yield duty cycles of technological activity from 0.38 to 1.00, with resource depletion rate and post-collapse recovery fraction as the dominant levers shaping persistence and effective detectability.
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The Dyson Minds 2025 Workshop: SETI around Black Holes
A workshop report recommends anomaly detection on existing telescope data to search for technosignatures from advanced minds powered by supermassive black holes.