Proposed byRonald N. Bracewell in 1960, aBracewell probe is defined as a hypothetical autonomousinterstellar space probe designed forcommunication with alien civilizations. It offers a potential solution to the inherent challenges of interstellar radio communication, such as signal delay, synchronization, and detection over vast distances.[1]
A Bracewell probe is defined as an autonomousroboticinterstellar space probe with advancedAI, pre-loaded with information or data its creators wish to convey. It would seek out existing technological civilizations or monitor worlds where such civilizations are likely to arise, establishing contact, making its presence known, conducting a dialogue over short distances (compared to interstellar distances), and transmitting the results of this interaction back to its origin. In essence, such probes would act as autonomous local representatives of their home civilization and serve as the point of contact between the cultures.
In contrast to radio communication across interstellar distances, a Bracewell probe offers key advantages: sustained presence in a target star system, active search capabilities, high-bandwidth local communication, and direct observation. Its physical presence serves as an unambiguous message. However, the probe cannot communicate information beyond its pre-loaded memory or update its contact protocols remotely. This inflexibility risks obsolescence and limits responses to unforeseen situations. Additionally, designing a Bracewell probe requires anticipating diverse alien biologies, psychologies, and technological levels — an inherently challenging task.
While a Bracewell probe does not need to be avon Neumann probe as well, the two concepts are compatible, and a self-replicating device as proposed by von Neumann would greatly speed up a Bracewell probe's search for alien civilizations.
It is also possible that such a probe (or system of probes if launched as a von Neumann–Bracewell probe) may outlive the civilization which created and launched it.
The search for Bracewell probes falls underSETA (Search for Extraterrestrial Artifacts) and SETV (Search for Extraterrestrial Visitation), encompassing efforts to detect evidence of extraterrestrial activity within theSolar System or nearby space.[dubious –discuss][citation needed] Detection methods might include searching for anomalous objects or emissions, analyzinglong-delayed radio echoes (LDEs), and observing gravitational microlensing events.[dubious –discuss][2][3] The LDE connection, however, remains highly speculative. These efforts often overlap with broaderSETI initiatives, such asBreakthrough Listen.
Thenear-Earth object1991 VG was initially considered a possible Bracewell probe due to its unusual rotation and orbit. However, subsequent observations identified it as a natural asteroid, with its characteristics attributed to theYarkovsky effect and other non-gravitational forces.[4][5]
Bracewell's original 1960 paper proposed an autonomous probe for interstellar communication, but later researchers and science fiction writers have expanded on this idea.
Following Bracewell’s original vision, these autonomous explorers carry pre-loaded messages and are designed to establish contact with technological civilizations.
Some are built for high-speed travel, gathering data during brief encounters before transmitting their findings home. Others are designed to decelerate and enter orbit, allowing for prolonged observation and near-real-time communication.
While some remain singular, self-contained explorers, others incorporatevon Neumann's concept of replication, enabling them to multiply and extend their search range exponentially.
Certain probes act as peaceful electronic ambassadors, fostering interstellar dialogue. Speculative berserker machines, rooted in science fiction, are envisioned as autonomous weapons capable of eradicating alien civilizations.
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