Via MIT News and the “Astronomers with frickin’ laser beams on their heads” department comes this odd idea.
If extraterrestrial intelligence exists somewhere in our galaxy, a new MIT study proposes that laser technology on Earth could, in principle, be fashioned into something of a planetary porch light — a beacon strong enough to attract attention from as far as 20,000 light years away.
The research, which author James Clark calls a “feasibility study,” appears today in The Astrophysical Journal. The findings suggest that if a high-powered 1- to 2-megawatt laser were focused through a massive 30- to 45-meter telescope and aimed out into space, the combination would produce a beam of infrared radiation strong enough to stand out from the sun’s energy.
Such a signal could be detectable by alien astronomers performing a cursory survey of our section of the Milky Way — especially if those astronomers live in nearby systems, such as around Proxima Centauri, the nearest star to Earth, or TRAPPIST-1, a star about 40 light-years away that hosts seven exoplanets, three of which are potentially habitable. If the signal is spotted from either of these nearby systems, the study finds, the same megawatt laser could be used to send a brief message in the form of pulses similar to Morse code.
“If we were to successfully close a handshake and start to communicate, we could flash a message, at a data rate of about a few hundred bits per second, which would get there in just a few years,” says Clark, a graduate student in MIT’s Department of Aeronautics and Astronautics and author of the study.
The notion of such an alien-attracting beacon may seem far-fetched, but Clark says the feat can be realized with a combination of technologies that exist now and that could be developed in the near term.
“This would be a challenging project but not an impossible one,” Clark says. “The kinds of lasers and telescopes that are being built today can produce a detectable signal, so that an astronomer could take one look at our star and immediately see something unusual about its spectrum. I don’t know if intelligent creatures around the sun would be their first guess, but it would certainly attract further attention.”
Standing up to the sun
Clark started looking into the possibility of a planetary beacon as part of a final project for 16.343 (Spacecraft, and Aircraft Sensors and Instrumentation), a course taught by Clark’s advisor, Associate Professor Kerri Cahoy.
“I wanted to see if I could take the kinds of telescopes and lasers that we’re building today, and make a detectable beacon out of them,” Clark says.
He started with a simple conceptual design involving a large infrared laser and a telescope through which to further focus the laser’s intensity. His aim was to produce an infrared signal that was at least 10 times greater than the sun’s natural variation of infrared emissions. Such an intense signal, he reasoned, would be enough to stand out against the sun’s own infrared signal, in any “cursory survey by an extraterrestrial intelligence.”
He analyzed combinations of lasers and telescopes of various wattage and size, and found that a 2-megawatt laser, pointed through a 30-meter telescope, could produce a signal strong enough to be easily detectable by astronomers in Proxima Centauri b, a planet that orbits our closest star, 4 light-years away. Similarly, a 1-megawatt laser, directed through a 45-meter telescope, would generate a clear signal in any survey conducted by astronomers within the TRAPPIST-1 planetary system, about 40 light-years away. Either setup, he estimated, could produce a generally detectable signal from up to 20,000 light-years away.
Both scenarios would require laser and telescope technology that has either already been developed, or is within practical reach. For instance, Clark calculated that the required laser power of 1 to 2 megawatts is equivalent to that of the U.S. Air Force’s Airborne Laser, a now-defunct megawatt laser that was meant to fly aboard a military jet for the purpose of shooting ballistic missiles out of the sky. He also found that while a 30-meter telescope considerably dwarfs any existing observatory on Earth today, there are plans to build such massive telescopes in the near future, including the 24-meter Giant Magellan Telescope and the 39-meter European Extremely Large Telescope, both of which are currently under construction in Chile.
Clark envisions that, like these massive observatories, a laser beacon should be built atop a mountain, to minimize the amount of atmosphere the laser would have to penetrate before beaming out into space.
He acknowledges that a megawatt laser would come with some safety issues. Such a beam would produce a flux density of about 800 watts of power per square meter, which is approaching that of the sun, which generates about 1,300 watts per square meter. While the beam wouldn’t be visible, it could still damage people’s vision if they were to look directly at it. The beam could also potentially scramble any cameras aboard spacecraft that happen to pass through it.
“If you wanted to build this thing on the far side of the moon where no one’s living or orbiting much, then that could be a safer place for it,” Clark says. “In general, this was a feasibility study. Whether or not this is a good idea, that’s a discussion for future work.”
Taking E.T.’s call
Having established that a planetary beacon is technically feasible, Clark then flipped the problem and looked at whether today’s imaging techniques would be able to detect such an infrared beacon if it were produced by astronomers elsewhere in the galaxy. He found that, while a telescope 1 meter or larger would be capable of spotting such a beacon, it would have to point in the signal’s exact direction to see it.
“It is vanishingly unlikely that a telescope survey would actually observe an extraterrestrial laser, unless we restrict our survey to the very nearest stars,” Clark says.
He hopes the study will encourage the development of infrared imaging techniques, not only to spot any laser beacons that might be produced by alien astronomers, but also to identify gases in a distant planet’s atmosphere that might be indications of life.
“With current survey methods and instruments, it is unlikely that we would actually be lucky enough to image a beacon flash, assuming that extraterrestrials exist and are making them,” Clark says. “However, as the infrared spectra of exoplanets are studied for traces of gases that indicate the viability of life, and as full-sky surveys attain greater coverage and become more rapid, we can be more certain that, if E.T. is phoning, we will detect it.”
Discover more from Watts Up With That?
Subscribe to get the latest posts sent to your email.
Because inviting in more advanced strangers worked so well for the American Indian?
You’re all decades too late. The invitation was sent out via Voyager:
https://voyager.jpl.nasa.gov/golden-record/
Fortunately, it was in the form of a golden LP gramophone record. The invitation to dinner or whatever would only be intelligible to primitive civilizations who still use record players. However, it would make a nice frisbee for alien kids to toss around presuming that the alien world had an atmosphere.
Didn’t the builders also include a set of plans for building a phonograph, so whomever finds Voyager will be able to hear the messages after constructing a working turntable
Might not be a smart idea if your lights attract interplanetary Giant Hornets….
The only reason we’re here is because at some fundamental level the universe has a structure to bring about our existence & that means there are many more of us or something similar to us out there (the evidence for this is that we are here). Why haven’t we found these others you ask, I don’t know but that doesn’t mean they aren’t out there somewhere
Why bother if we’re already doomed according to the latest carbon tax advocacy tactics.
You must first sign the agreed upon position statement warning of human-caused global warming before we can continue with discussions and public announcements. It’s a minor formality really. Some mention of moneys for NY subways and high speed rail in California would also be a nice add-on bonus.
We don’t actually know much about stars, we only have very weak theories with no alternative ideas, because all of the money goes into existing interpretations, there will be no other solid theories, cos money and dogma
If IF stars manifest events every few million years or longer, that sterilize solar systems, it would explain why we find nothing so far.
It would also explain why we’ve not seen some super advanced alien race that’s been around god knows how long.
Also, putting an “age” on the universe with even a quantum of certainty, is the most arrogant deluded thing a scientist can do.
We don’t even have a clue how old earth is, all age estimations come from the absolute bollocks interpreted from Hubble’s work.
This iteration of life on earth may not even be the first, or second, or third, all we have is best guesses, posing as some sort of solid theory, nope. We operate on a skin on the planet, a skin that could have been stripped away repeatedly over who knows how many billions or even trillions of years. The junk from this is readily apparent in and around the solar system, and there is nothing even remotely solid to suggest that detritus is from the early days of the solar system, dogma apart.
Mark – Helsinki,
Sadly you are quite un-informed.
We have a pretty precise age on the sun: 4.57 (+/- 0.05) Billion years (Gy). For reason of hard stellar physics, this is when the sun began it’s main sequence life.
Once the sun started shining, its solar wind began to sweep away the microscopic dust cloud that cocooned the forming proto-planets, stopping their further dust driven growth.
Of course, then a shooting gallery of gravity assisted protoplaneatary collisions and comet bombardments from the deep cold reaches carried on for hundreds of millions of years. Before things began to settled down a bit by 4.1 Gy ago.
There have been some research groups reporting that signs of the earliest life appears in some ancient rocks with about 200 millions years, or about 3.9 Gy ago. The sun was still quite weak compared to present, but a higher atmospheric sea level pressure could have been the compensation to keep the planet surface warm enough to keep the sea unfrozen while volcanos kept spewing gases and forming island chains. Plate tectonics may not have begun until the Earth was about 1 Gy old due to the need for water to get deep enough to lubricate things on the thinner crust present then.
All these things are pretty well understood. Especally the ages. There are still a lot of details that are speculative, like when exactly did tectonics start, and what was the path between sterile palanet and abundant microbial life. The RNA world hypothesis as precursor pathway to complex life, is just that, an unproven hypothesis, and probably will remain so.
But please, don’t let me stop you from willful ignorance.
No one would see it anyway. A laser through a telescope is very directional. Where would you point it and for how long? Maybe if you could attract a giant Space cat to chase after the dot, you could at least post the video on youtube and get a lot of hits. It sounds like a waste of money, it would be a perfect project for Scientologist or some other group with more money than brains.
As to this ‘Porch Light’, one can only hope that nothing notices it, as the last thing that we need on Earth is an invasion of little green men or ETs.
Talk about playing the “telephone game” , and then add in a forty year delay.
What could possibly go wrong 🙂
I think any “aliens” that matter know we’re here.
Don’t announce where the heretics are!
Proxima Centauri is an M-class dwarf star, a stellar mass of about 0.24 solar mass. It is a bad boy. It regularly bathes its known rocky exo-planets with stupendous blasts of sterilizing radiation from x-ray flares and potent CMEs.
If we ever find life in another system, it will likely have to be a well behaved unitary star, in 0.9 to 1.1 solar mass size range, with a similar metalicity to the sun, and in its main sequence mid-life, and in a “safe” backwater neighborhood of the galaxy like our system.
That rules out a lot of systems. But there are still some candidates within 40 ly.
The Star Trek paradigm where there are evolved highly complex life in so many systems is of course fantasy. But the general public is ignorant enough of the realities involved to not understand that highly complex life beyond some microbial laden sludge near a mineral hot spring is most certainly exceedingly rare, like 1 in a billion or more rare. In that likelihood, Cap’n Kirk and his merry band would have spent their entire 5 year mission finding nothing but dead, radiation blasted rocks orbiting around bad boy stars, many of which are binary gravitational slingshots.
Considering that homo sapiens has been on this planet for 150-200k years of hundreds of millions of years that life has been around, what is the likelihood that any species in another solar system will evolve and reach technological parity or superiority at or near the same time as us and would be able to communicate with us or travel here considering interstellar distances, the limitations of light speed and sub-light speed limitations of spacecraft? This idea is a perfect example of wasting resources to pursue the ridiculous by failing to properly analyze statistical probability and/or our limited abilities. Sheesh.
Could there be grant money involved in this POS pursuit?
To represent humanity to the galactic community, NASA sent the Pioneer plaque showing a man and Barbie doll! The woman has no genitals. The aliens might get excited and come to Earth to reproduce. NASA thought we better replace woman with Barbie doll
Hopefully it isn’t a “Stand Your Ground” Universe or this could play out badly.
Have to suspect it would be a “Stand Your Ground” universe. Who would be willing to yield ground? Not us!
UFO travelling past our solar system, minding its own business, when.. BZZZZZAP!
“Ouch. Those Earthers sure are aggressive. Lucky we had our shields up or we’d have been fried.”
“Yeah. Let’s give them a dose of their own, see how they like it!”
“OK, charging the space cannon..”
Question: Why haven’t we seen any porchlights from other civilizations?
Answer: It’s probably a bad idea.