Should SETI Be Looking For Lasers Instead?

colonist writes "Frank Drake, creator of SETI's famous equation, says the detection of extraterrestrial radio signals won't work, because Earth's own radio signal will only be around for 100 years. More and more of Earth's communications use cable and satellites, with no radio-frequency leakage to space. Instead, we should be looking for intentional signals in the form of high-powered lasers that could 'outshine the sun by a factor of 10,000'. Meanwhile, Paul Davies writes that we should be conducting SETI in our DNA. In turns out that an alien message designed to last millenia should be 'inside a large number of self-replicating, self-repairing microscopic machines programmed to multiply and adapt to changing conditions', otherwise known as living cells. Are we the message?"

Optical SETI

[Space+cowboy]

Optical (ie: laser detection) SETI has been up and running for a while now (see Optical SETI overview for example). Drake ought to declare an interest though, since he's one of the investigators on the project.

It's a reasonable argument, but it's far harder to set up optical "listening" posts than radio ones. It cost me about 1000 uk pounds (WHY is the pound symbol banned from /. ?) to set up a SETI listening post, including all the costs from dish/low-noise-amplifier through receiver and PC. Setting up an optical one is waaay more expensive. Optics in general are far more expensive than radio components, and large-scale ones are extortionate :-(

The counter argument of course is that to detect laser light, the remote civilisation have to be pointing their laser at us, whereas with radio it doesn't matter since it's not a directed beam. Against that you have to offset the time-period over which transmissions of either kind could be made...

The chances of getting a radio contact may be a few orders of magnitude lower than getting an optical contact, but since the chances of me setting up an optical SETI station are precisely 0, the chances of getting 'the' signal with radio is infinitely greater than with optics, at least for me :-)

Simon

Re:Optical SETI

£

Re:Optical SETI

[BarryNorton]

A diffuse source contradicts with LASER, but yes, it's possible. But in order for it to be detected over ambient light it would have to be something huge and noticeable like a pulsar - I'd hate to see their electricity bill, these aliens of yours ;)

Re:Optical SETI

[Amiga+Lover]

I'm not really sure I want to be looking to make contact with aliens who are pointing FRICKEN LASERS at us.

Re:Optical SETI

[Sique]

A laser is a L.A.S.E.R., which stands for Light Amplification by Stimulated Emission of Radiation. This means that the laser light is an amplification of a smaller light source. Because of the amplification, the laser light waves are synchronous to each other, because they are the amplification of the same light wave. This type of light is called coherent. And because the light waves are synchronous, they can't be diffuse, which would be a contradiction in itself.

If laser light travels, it loses this coherency, so the laser light gets more and more diffuse (the coherency gets slowly down, so the diffuse part increases). Optically this means that the light beam diameter gets wider and wider with the distance from the source. If the starting laser beam is very strongly bundled and has a very small diameter (thus a high energy density), this widening effect gets stronger. Less strong bundled lasers with lower energy density don't widen that much, so most long distance laser experiments (like measuring the distance to the Moon by shooting a laser beam there and take the time until the reflection can be measured) use quite large diameters, which you wouldn't call "laser" at all, because they don't spur the needle fine light :)

Re:Optical SETI

[FireFury03]

A diffuse source contradicts with LASER

Not necessarilly. A LASER does 3 things:

1. Produces a narrow beam of light
2. Produces monochromatic light
3. Produces coherent light

Monochromatic light is produced by gas-discharge tubes (e.g. sodium lights, etc) - nothing special here.

You can produce a narrow beam of light using a point lightsource and mirrors/lenses.

Now, the special bit - your normal light bulbs produce incoherent light - you get lots of photons emitted but their waves aren't synchronised, so they interfere destructively with eachother. By contrast the light you get off a LASER is coherent - all the waves are synchronised, so they interfere constructively, making the light appear brighter.

So if you want to create a omnidirectional optical light beacon, rather than using a normal light bulb and ending up with the photons randomly interfering with eachother destructively, it makes more sense if you can synchronise the wave fronts so they expand away from your light source in neat coherent spheres.

(I have no idea if the technology exists to do this ATM - it seems like a rather complex problem)

Message from aliens in our DNA finally found!

The message only contained two words:

FIRST POST!

What a horrible message.

Are we the message?

I guess that's akin to leaving a flaming bag of poo on the doorstep.

My guess on the message...

[miknight]

"We apologise for the inconveniance."

Are we the message?

[EachLennyAPenny]

Is a message allowed to read itself?

message of means?

[Tjebbe]

Maybe we should consider the possibility that we are part of a device to perform some calculation to find the answer to a certain big question.

Re:message of means?

[Scarblac]

Maybe we should consider the possibility that we are part of a device to perform some calculation to find the answer to a certain big question.

Actually, in my opinion, Kurt Vonnegut is the real master of "perhaps humanity only exists for a very stupid reason" stories.

Especially the sub-stories of his sf author character Kilgore Trout often have that theme - humanity exists only to train the hardiest microbes in the universe, because hyperintelligent rays of light want to help organic life travel the universe and only microbes could do that, etc.

In one of KV's books (spoilers for "Sirens of Titan"!), there is an intelligent alien who brings a message from his side of the universe to the only other intelligent species in the whole universe, millions of light years away. Half way, his ship breaks down, the alien manages to land on the moon we know as Titan. He needs a replacement part to fix his ship. His home planet sends the part, but this of course takes a long time; but the thing they can do faster than light is influence the thoughts of the monkeys that live on a planet nearby.

As the millennia pass by, the monkeys evolve under the influence of the far-away aliens, eventually building huge pyramids and the like in patterns that meant "almost there now" to the alien who was watching from some moon, eventually producing an extremely complex story line, including many wars, the stock market, the development of space travel, and fashion, that ends in a human going to Titan with a weirdly shaped piece of metal adorning his neck.

This is of course the replacement part for the alien, who can thus continue his travels. Humanity has served its purpose of producing the spare part, and is left to its own devices.

Eventually the alien reaches the other side of the universe, to deliver the message to the only other intelligent species in the universe. It said "Hello there".

I love Kurt Vonnegut. Adams must have read quite a few of his books.

Regarding RF Leakage to Space

[Effugas]

We dump pretty enormous amounts of energy at RADAR wavelengths, 24/7, across the night sky. That'll stop approximately when we have no fear of hostile aircraft showing up at our borders.

You know, never.

--Dan

Re:Regarding RF Leakage to Space

[Inexile2002]

What a letdown to discover alien RF signals and find out their message was "ping". It would be undeniably cool to discover them, but if all we discovered was RADAR signals there would be no message to decypher.

Satellites?

[earthman]

And exactly since when do satellite uplink transmissions stop at the satellite? The uplink is a radio wave, albeit a directed one. It might still be possible to pick up an alien uplink signal.

I for one...

[MisterLawyer]

I for one welcome our DNA-speaking, laser-shooting overlords. :-D

Re:Light takes 25 years from nearest star..

[ColdGrits]

"considering light takes 25 years to reach the Earth from the nearest star"

Erm, are you SURE about that?

Ignoring the real nearest star, Sol, the next nearest star is Proxima Centauri which is 4.22 light-years away... i.e. its light only takes 4.22 years to get here, not the 25 you claim.

There are 25 known stars within 13 lightyears. Their light won't take 25 years to get to us either.

Seriously. You wanna check your random information before presenting it as a fact!

Re:If they outshine Sol by 10,000x...

"Do not look at the alien civilization with your remaining eye."

Looking in the wrong places.

[JWSmythe]

I think we're really looking in all the wrong places. We're putting human assumptions on alien life.

We assume they would be using radio communication, or that they'd bother with a high-power laser. What if their communication is completely different. Like, something we haven't even considered to be a possibility yet, even in SciFi.. In a transmission media we don't even realize, we may be receiving communications from them, but we simply don't have the equipment to hear it.. We can't even decipher what any other creature on this planet is trying to communicate, why should we even be so egotistical to thing that not only would we know how to receive their communication, but have the vaugest idea of what they're saying.

I thought the idea of SETI was that we'd pick up an omni-directional broadcast, with some alien saying "here we are, can anyone hear me" A laser would be directional. It would have to be intended for Earth, and would need to be tracking many years ahead of where we are. We aren't broadcasting the same signal, why would they? There could be many planets near by with the same idea of listening, but if no one's talking, there's no communcation.

Maybe pulsars aren't just some celestial event, maybe they're beacons, and when we're ready to go to them, we'll find more information. But for now (and the next hundred+ years), we won't be going anywhere near them. Like, we haven't even managed to get a person to the next planet yet. There isn't enough "push" to develop to the next level. Imagine if every country spent their military budget on developing space travel. we'd alerady have a flag on Pluto, along with a bunch of empty beer cans from tourists.

But no, we waste our resources blowing each other up, or making sure we're on the virge of it every day. Remember the cold war? Ya, 40 years of "I'm going to kill you all", just for it to fall apart, and both sides realize that those people we were so scared of for so long aren't really that bad.

I grew up knowing the Soviet Union was the evil Red Army, who had so many weapons pointed at us because they hate us so much. Now, thanks to the fall of the Soviet Union, and the rise of the Internet, I now frequently talk to a Russian, and really, he's a nice guy. I've seen some beautiful pictures around where he lives, where not too long ago I would have believed was a frozen wasteland.

If only all of our governments would give up on this nonsense and cooperate in things, or better yet, ditch the whole "This is ours, you can't play with it" mentality, we'd make a lot more progress.

[rant mode off]

10,000 times outshine the sun? Yeah right.

[hankwang]

The sun radiates with about 2e25 watts per steradian. That's of course an incredible amount of light, so the idea is to use fewer watts within a very narrow angle. The claim is that one can achieve 2e29 W/sr that way.

The divergence of a laser beam is, assuming ideal optical components, mostly dependent on the diameter of the beam where it starts. You can take a big telescope and let the light pass through in the opposite direction, so let's say, a diameter of 4 meters. For visible light, that will generate a beam with a divergence of 1e-14 sr. So, to get to 2e29 W/sr, you need a laser with a power of no less than 2e15 watts. (Compare this to a mid-size electrical power plant at 1e9 watt...)

Yes, there exist lasers that can generate ultrashort pulses in the near-infrared, with such a high peak energy, say 100 femtoseconds (100 fs=1e-13 s) and 100 joules per pulse, so there you have our desired fluence.

Unfortunately, such lasers can only fire something like one shot per second. If you really want to appreciate the high peak power, you need a camera with a shutter time of 100 fs. Imagine looking at the sky with such an ultrafast camera. The chance that you actually manage to catch a flash from this laser is virtually zero, unless you have a way to know when the flash is going to come. Someone who is looking at a nearby star and expecting flashes is more likely to have an aperture time of 0,1 seconds or so in order to capture any photons at all. At 0,1 seconds aperture time, the laser is no longer 10,000 times more bright than the nearby star (that is, our sun), but rather 1e8 times weaker.

So, it is unlikely that this is going to word, assuming that someone is looking at us anyway.

Quantum SETI

[essreenim]

With the promise of quantum communication, it is conceivable that (if Quantum communication is indeed feasible) we should be focussing our optical light search on specific photons of light.

Anyone know about beam splitting entangled pairs etc. Many moons ago, Einstein, Podolski, and Rosen carried out there unusual experiment whereby the they observed what is now known as quantun weirdness. A photon in an entangled state could be split using a sophisticated 50:50 beam splitter. Each split photon could travel off in opposite directions and appear to be twins, in the sense that any change in behaviour of one would instantly (exactly synchronized regardless of distance!!!) be felt by the other, its twin.
Evidence that this was no fluke is gathering thanks to continuing experiments, yet it is still not in stone.

My reasoning is that if this phenomenan is genuine, it could be one way extraterrestrials would chose to contact us. Why not. They send a conventional optical signal, only this time encased in a surrounding cylindar of light, thus allowing for the entangled photons charateristic properties to be influenced only by this cylinder of light. Allot can till go wrong so conceivably, the 'ET's' would send a large stream of such light cylinders- the centre of which is a stream of entangled photons. That way any measurement of the entangled photon would cause an immediate change to its twin (The twin photon - of entangled pair)would presumably be archived on the alien world bouncing back and forth in a cavity (not unlike the cavities we use today - only presumably far more advanced.) So, once change is observed, an immeditae alarm bell is triggered. The ET's can know instantly someone/something has comeinto contact with their signal. Just like Earth SETI, the ET SETI would categorise all their findings and have mant false positives. They would probably already have chartered the area of space to which they send a signal. They may know the only objects (meteorites, stars, planets, commets...) that are likely influences over the transmitted light signal. Hence, if we Earthlings intercept the light in a very manufactured manner (i.e fire a encoded light signal of our own into theres, they are likely to get some unusual data back at there end - instantly.

Anyway, lets face you can't have an interest in SETI without being imaginative.

All Im tring to say is.

1) If I were a highly advanced ET, I would use Quantum entaglement (if it is indeed feasible) to transmit photons of light.

2)I believe we should start sending entangled photons of light, encased in our own manufactured cylinders of background light, out into space.

3)I hope SETI read this.

Re:This reminds me of a saying...

Regarding your final question: this question has been asked and pondered before by Enrico Fermi in 1950. See this Nature article for an extensive discussion on the subject: www.nidsci.org/pdf/nature_v409.pdf. I particularly like the list of canonical answers:

There are no aliens, and there never have been. Humanity is unique in the Universe.

There have been plenty of aliens, but civilizations only moderately more advanced than ours always blow themselves up in nuclear wars.

The lifespan of an alien civilization is only a few million years. They visited us ten million years ago, and will turn up again in ten million years time, but there is nobody around at the moment.

Aliens exist, but interstellar travel is impossible because of relativistic limits on the speed of light, or because living creatures cannot survive it.

Aliens exist, but are not interested in interstellar travel.

Aliens exist and have interstellar travel, but they are not interested in contacting us.

Aliens exist, but galactic law forbids any contact with us because we are too primitive, or violent.

Some aliens see it as their duty to eliminate all other forms of life that come to their attention.
Any technological civilization will develop radio and TV, attract their attention, and be eliminated11. They are on their way now.

They are here already (the preferred answer on the Internet s UFO pages).

(OT) This is the first time I have ever seen...

[CausticPuppy]

...a post consisting only of a single non-alphabetic character, getting modded to +5.

Truly we live in amazing times.