One of NASA’s key priorities is understanding the potential for life elsewhere in the universe. NASA has not found any credible evidence of extraterrestrial life -- but NASA is exploring the solar system and beyond to help us answer fundamental questions, including whether we are alone in the universe.
For those who study the potential for life beyond Earth, one of the
questions has long been trying to determine the likelihood of microbial life
versus complex life versus a civilization so advanced that we can spot signs of
it, called technosignatures, from here at home. Studying the answers to
questions like that can help guide suggestions on new telescopes or missions to
emphasize the most likely places and ways to look for life.
Now a recent
paper published May 24 in the Astrophysical Journal postulates
that if advanced extraterrestrial civilizations exist, one reason they might be
hard to detect with telescopes from our vantage point is because their energy
requirements may be relatively modest. If their culture, technology, and population
size do not need vast amounts of power, they would not be required to build
enormous stellar-energy harvesting structures that could be detected by current
or proposed telescopes. Such structures, based on our own Earthly experience,
might be solar panel arrays that cover a significant portion of their planet’s
surface or orbiting megastructures to harness most of their parent star’s
energy—both of which we might be able to spot from our own solar system.
Conceptual image of an exoplanet with an advanced
extraterrestrial civilization. Structures on the right are orbiting solar panel
arrays that harvest light from the parent star and convert it into electricity
that is then beamed to the surface via microwaves. The exoplanet on the left
illustrates other potential technosignatures: city lights (glowing circular
structures) on the night side and multi-colored clouds on the day side that
represent various forms of pollution, such as nitrogen dioxide gas from burning
fossil fuels or chlorofluorocarbons used in refrigeration.
NASA/Jay Freidlander
“We found that even if our current
population of about 8 billion stabilizes at 30 billion with a high standard of
living, and we only use solar energy for power, we still use way less energy
than that provided by all the sunlight illuminating our planet,” said Ravi
Kopparapu of NASA’s Goddard Space Flight Center in Greenbelt, Maryland, lead
author of the paper.
The study has implications for
the Fermi
paradox, postulated
by physicist Enrico Fermi, which asks the question that since our galaxy is
ancient and vast, and interstellar travel is difficult but possible, why hasn’t
an alien civilization spread across the galaxy by now?
“The implication is that
civilizations may not feel compelled to expand all over the galaxy because they
may achieve sustainable population and energy-usage levels even if they choose
a very high standard of living,” said Kopparapu. “They may expand within their
own stellar system, or even within nearby star systems, but galaxy-spanning
civilizations may not exist.”
Additionally, our own technological
expertise may not yet be able to predict what more advanced civilizations could
do.
“Large-scale stellar-energy
harvesting structures may especially be obsolete when considering technological
advances,” adds Vincent Kofman, a co-author of the paper at NASA Goddard and
American University, Washington, D.C. “Surely a society that can place enormous
structures in space would be able to access nuclear fusion or other
space-efficient methods of generating power.”
The researchers used computer
models and NASA satellite data to simulate an Earth-like planet with varying
levels of silicon solar panel coverage. The team then modeled an advanced
telescope like the proposed NASA Habitable Worlds Observatory to see if it could detect solar panels on the
planet about 30 light-years away, which is relatively nearby in a galaxy that
spans over 100,000 light-years. They found that it would require several
hundreds of hours of observing time with that type of telescope to detect
signatures from solar panels covering about 23% of the land area on an
Earth-like exoplanet. However, the requirement for 30 billion humans at a
high-living standard was only about 8.9% solar-panel coverage.
Extraterrestrial civilizations with
advanced technology could be discovered by their technosignatures –
observational manifestations of extraterrestrial technology that could be
detected or inferred through astronomical searches. For decades, scientists have
been using radio telescopes to look for potential extraterrestrial radio
transmissions. More recently, astronomers have proposed using a telescope like
the Habitable Worlds Observatory to look for other kinds of technosignatures,
such as chemical “fingerprints” in exoplanet atmospheres or specific characteristics in the light
reflected by an exoplanet that might announce the presence of vast silicon
solar arrays.
The new study assumes that
extraterrestrials would build solar panels out of silicon because it’s
relatively abundant compared to other elements used in solar power, such as
germanium, gallium, or arsenic. Also, silicon is good at converting the light
emitted by Sun-like stars into electricity and it’s cost-effective to mine and
manufacture into solar cells.
The researchers also assume that a hypothetical extraterrestrial civilization would rely exclusively on solar energy. However, if other sources of energy are used, such as nuclear fusion, it would reduce the silicon technosignature, making the civilization even harder to detect. The study further assumes that the civilization’s population stabilizes at some point. If this doesn’t happen for whatever reason, perhaps they will be driven to expand ever-father into deep space. Finally, it’s impossible to know if an advanced civilization may be using something we haven’t imagined yet that requires immense amounts of power.
By wasteigerwald
Source: NASA Scientists on Why We Might Not Spot Solar Panel Technosignatures - NASA Science
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