November 2, 2024

Astronomers Scanned 12 Planets for Alien Signals While They Were in Front of Their Stars

The group was led by Dr. Sofia Z. Sheikh, an NSF-ASCEND Postdoctoral Fellow at the SETI Institute and Berkeley the SETI Research Center (UC Berkeley), and other members of a graduate SETI program run by the Penn State Extraterrestrial Intelligence Center (PSETIC). They were signed up with by groups from Breakthrough Listen, the Center for Exoplanets and Habitable Worlds (CEHW), the International Centre for Radio Astronomy Research (ICRAR), and multiple universities and research study institutes. The paper that details their research is arranged to be published in The Astronomical Journal.

The Robert C. Byrd Green Bank Telescope (GBT), part of the Green Bank Observatory in West Virginia, is the worlds premiere single-dish radio telescope. In between its 100-meter meal (328-foot), unblocked aperture, and exceptional surface accuracy, the GBT offers extraordinary level of sensitivity in the millimeter to meter wavelengths– very high to exceptionally high frequency (VHF to EHF). Given that 2017, it likewise became one of the main instruments utilized by Breakthrough Listen and other institutes taken part in the Search for Extraterrestrial Intelligence (SETI).
Recently, an international team of scientists from the SETI Institute, Breakthrough Listen, and multiple universities scanned twelve exoplanets for indications of technological activity (aka. While the study did not detect any conclusive proof of technosignatures, they did determine two radio signals of interest that warrant follow-up observation.

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Frank Drake by the Green Bank Telescope. Credit: NRAO/NSF/AUI
The search for radio signals has actually been a recognized SETI convention considering that the very first survey was performed in 1961. In recent years, the field of SETI has actually expanded substantially, with next-generation radio telescopes and brand-new information analysis methods (many of which incorporate device knowing) have actually ended up being readily available.
However, radio transmissions remain the most sought-after technosignature, and radio studies have actually advanced exponentially thanks to newly-developed hardware and advanced computational methods. As Sheikh informed Universe Today through e-mail:
” Traditional radio SETI is broadening significantly, with brand-new sources of funding and new radio telescopes coming on-sky (for instance, MeerKAT),” she stated. “In addition, numerous brand-new scientists are getting included in the field, including both trainees and professionals in other sub-fields who are using their abilities to the technosignature challenge. Its very exciting to be a part of SETI at such a dynamic time!”
Discovering evidence of artificial radio signals stays difficult, requiring powerful selections, considerable observation time, and enormous commitment and patience from research teams. In addition, there is a growing issue amongst SETI researchers that the bulk of search area (not simply in terms of physical space but also possible types of technosignatures) is still uncharted. According to Sheikh and her group, this develops the chance to install brand-new tasks that might fill the untouched regions of “parameter space”:

” The timeless issue with SETI is the “needle in a haystack” issue– even if someone is trying their hardest to get our attention, area is big, and there are a lot of forms that a message could take (even if you simply limit the possibility space, or criterion area, to the radio spectrum). It assists if we attempt to figure out unique locations, times, or frequencies that may be more most likely locations for messages than any random point.”

The Pioneer Plaque. The diagram in the upper left corner illustrates hydrogen undergoing the transition responsible for radio emissions at the wavelength of 21 cm. Credit: NASA
These are called “Schelling Points,” an idea from game theory where 2 or more people get here at the same solution by default and in the absence of interaction. Examples consist of locations like the Galactic Center, where some SETI scientists believe civilizations are more than likely to be discovered, or frequencies like 1420 MHz. Likewise known as the “hydrogen” or “21-centimeter line.” this frequency corresponds to the modification in the energy state of neutral hydrogen. Radio waves at this frequency are thought about favorable by SETI scientists because they can permeate large clouds of dust in the interstellar medium (ISM).
For their research study, Sheikh and her colleagues spoken with data on 12 exoplanets determined by the Kepler Space Telescope. These worlds were discovered using Transit Photometry (aka. Transit Photometry), where routine dips in a stars luminosity are utilized to validate the existence of exoplanets and constrain their size and orbital periods. The GBT collected information on these Kepler exoplanets as they made transits of their particular stars on March 25th, 2018. The goal was to see if radio transmissions accompanied these transits, a surefire sign of a sophisticated civilization attempting to interact. Said Sheikh:

Artists impression of the TRAPPIST-1 system, showing 2 of its seven worlds transiting in front of the star. Credit: NASA.
” This was a pilot study for the transits-as-Schelling-points concept, and future research will expand the sample to include substantially more exoplanets,” she concluded. “This is especially appropriate with upcoming commensal jobs like COSMIC on the ngVLA, which will be surveying the sky almost constantly– with so much new data on the method, knowing precisely when and where to look will help us prioritize potentially genuine signals over the growing background of radio frequency interference from Earth.”.
Additional Reading: arXiv.
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While it is extremely energy-intensive to transmit a continuous message, this technique narrows the transmission down to a specific mutually-derivable window. This dramatically minimizes the expenses of sending out messages to space while significantly increasing the odds of spotting messages. Sheikh and her coworkers are the first to utilize this technique in a radio technosignature search. And while they did not discover any technosignatures, their pioneering research study has actually developed a treatment that will make similar studies a lot easier to install in the future.

The Robert C. Byrd Green Bank Telescope (GBT), part of the Green Bank Observatory in West Virginia, is the worlds best single-dish radio telescope. In current years, the field of SETI has actually broadened substantially, with next-generation radio telescopes and new data analysis methods (numerous of which include device learning) have actually become readily available.” Traditional radio SETI is expanding tremendously, with brand-new sources of financing and new radio telescopes coming on-sky (for example, MeerKAT),” she stated. Radio waves at this frequency are thought about beneficial by SETI scientists given that they can penetrate big clouds of dust in the interstellar medium (ISM).
Sheikh and her colleagues are the very first to use this strategy in a radio technosignature search.

” For this particular task, we used the centers of planetary transits as Schelling Points. Simply put, we timed our observations such that the exoplanet-of-interest was associated its host star and the planetary system. Thats a time that we understand (by observing the dip in brightness as the world passes in front of its star), and its a time that any prospective life on the exoplanet would also know– for that reason, it is “mutually derivable”.”.