No credible periodic artificial signals were detected in the first lunar farside SETI observations using Chang'E-4 low-frequency radio spectrometer data.
Title resolution pending
4 Pith papers cite this work. Polarity classification is still indexing.
fields
astro-ph.IM 4years
2026 4verdicts
UNVERDICTED 4representative citing papers
No periodic radio technosignature above 0.146 W detected from 3I/ATLAS using FAST L-band observations and canonical polyadic decomposition analysis.
A tiered observational strategy is outlined to identify planetary-scale broadband radio technosignatures (BRaTs) from advanced civilizations up to 100 pc away using multi-parameter diagnostics to separate them from natural signals.
The SKA is described as a key future tool for technosignature searches due to its sensitivity, field of view, and resolution, requiring high temporal and spectral resolution data products.
citing papers explorer
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First Lunar Farside SETI Observations for Periodic Signals with the Low-frequency Radio Spectrometer of Chang'E-4 Mission
No credible periodic artificial signals were detected in the first lunar farside SETI observations using Chang'E-4 low-frequency radio spectrometer data.
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Periodic Radio Technosignature Search toward 3I/ATLAS with FAST
No periodic radio technosignature above 0.146 W detected from 3I/ATLAS using FAST L-band observations and canonical polyadic decomposition analysis.
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Isolating Broadband Radio Technosignatures (BRaTs): A Framework for Detecting Planetary-Scale Leakage
A tiered observational strategy is outlined to identify planetary-scale broadband radio technosignatures (BRaTs) from advanced civilizations up to 100 pc away using multi-parameter diagnostics to separate them from natural signals.
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Searching for Extraterrestrial Intelligence with the SKA
The SKA is described as a key future tool for technosignature searches due to its sensitivity, field of view, and resolution, requiring high temporal and spectral resolution data products.