Investigating nearby exoplanets via interstellar radar

Scheffer, Louis K.

doi:10.1017/s147355041300030x

Cited by 1 publication

(1 citation statement)

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“…Not every technosignature is a broadcast: unpowered artifacts in the solar system (Freitas & Valdes 1985;Rose & Wright 2004;Davies & Wagner 2013) and anomalous atmospheric compositions resulting from industrial pollution (Whitmire & Wright 1980;Lin et al 2014) are not broadcasts. On the other hand, not every broadcast need be an attempt at communication-they include directed energy transmission for power beaming (Inoue & Yokoo 2011;Benford & Benford 2016), propulsion (Lingam & Loeb 2017), or remote sensing (Scheffer 2014). Broadly speaking, waste heat from megastructures (Dyson 1960) and exhaust radiation from vehicles (Harris 1986) are broadcasts too.…”

Section: Broadcasts: General Considerationsmentioning

confidence: 99%

Artificial Broadcasts as Galactic Populations. I. A Point Process Formalism for Extraterrestrial Intelligences and Their Broadcasts

Lacki

2024

ApJ

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Artificial broadcasts from extraterrestrial intelligences are a hypothetical class of celestial phenomena. Unlike known astrophysical objects, the societies that generate them may be able to replicate on galactic scales through interstellar travel. Different galaxies could thus have drastically different populations, with variations in abundance of many orders of magnitude. I present a probabilistic formalism to treat this shared history, in which societies and their broadcasts are described by distributions over basic properties like lifespan and energy released. The framework contains a hierarchy of objects related by a tree structure. Discrete societies, the sources of broadcasts, are organized into potentially interstellar metasocieties. The population of each type of object is represented by a random point process in an abstract parameter hyperspace, a haystack. When a selection like an observation draws a sample, the point process is thinned. Given assumptions of interchangeability and independence, observables are modeled with compound Poisson random variables. I present an example of how selection bias can favor sampling longer-lived objects. I rederive the Drake equation for societies in the limit of no expansion. When interstellar replication is present, however, the mean number of detected broadcasts can depend quadratically on stellar mass, suggesting a search strategy favoring large galaxies.

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Section: Broadcasts: General Considerationsmentioning

confidence: 99%

Artificial Broadcasts as Galactic Populations. I. A Point Process Formalism for Extraterrestrial Intelligences and Their Broadcasts

Lacki

2024

ApJ

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Investigating nearby exoplanets via interstellar radar

Cited by 1 publication

References 35 publications

Artificial Broadcasts as Galactic Populations. I. A Point Process Formalism for Extraterrestrial Intelligences and Their Broadcasts

Artificial Broadcasts as Galactic Populations. I. A Point Process Formalism for Extraterrestrial Intelligences and Their Broadcasts

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