Article - The Search for E.T.

Article - The Search for E.T. - The Bay Area is a hotbed in the search
for intelligent life. But is anybody out there?
By Scott DeVaney


http://www.thewavemag.com/pagegen.ph...rticleid=25488

(pop-SETI article)

Ta ta, Jason H.

"Jason H." wrote in message ups.com...
Article - The Search for E.T. - The Bay Area is a hotbed in the search
for intelligent life. But is anybody out there?
By Scott DeVaney


http://www.thewavemag.com/pagegen.ph...rticleid=25488

(pop-SETI article)

Ta ta, Jason H.


Thanks Jason !
Interesting here, Seth Shostak is re-iterating his 20 year time-frame estimate for detecting ETI.
I've always wondered how you got to this estimate, and this article does not enlighten us much more.

It starts with the estimate of 10,000 transmitting ETIs in the Galaxy, as derived from the Drake equation.
We have seen that estimate before. Including by Drake himself. So that makes sense.
But then he continues :

"Shostak is convinced one of these 10,000 civilizations can be discovered by ATA within two decades."

Now why would the ATA enable us to detect one of these civilizations in 20 years ?
I have not seen any calculation that makes this time frame feasible.

"... then we should find a signal within 20 years," says Dr. Seth Shostak, senior astronomer at SETI. "Maybe it won't happen that
way, but that's the estimate that people in the SETI community say are the right numbers. "

I do not understand this. The SETI 2020 book does not make this prediction, so who are the "people in the SETI community" that say
these are the right numbers ?
Where does this 20 year number come from ?

Below, my thoughts on why I think 20 years is excessively optimistic for detecting an ETI beacon,



---
Beacons:

With 200 billion stars in the Galaxy, and 10,000 ETI civilizations, the average ETI neighbor
will be a few thousand lightyears away.
So even our ETI neighbors have not received any radio signals from us yet.

With 200 billion stars in the Galaxy, and 10,000 ETI civilizations, Each of these ETIs
need to send beacon signals to an average of 10million stars in its neighborhood continuously.
Otherwise, there is very little chance that there is any ETI beacon aimed at us.

Why would a civilization being called 'intelligent' spent enormous amounts of effort
to send signals continuously to millions of star systems for which they do not even
know when or if any communicating civilization will ever arise.

Now I am a SETI enthousiast, but we need to be realistic.
Unless there are millions upon millions of ETI civilizations out there, the odds are
very much against us finding ANY beacon signal at all.

We probably need to detect another civilization by other means (such as radio leakage),
which requires much larger antenna arrays than the ATA, and thus much more time than 20 years.
Or 'it' (detecting ETI) will happen totally different than we think.

Rob

"Rob Dekker" wrote:

Where does this 20 year number come from ?

Can't remember where or when I heard it, but I distinctly heard Shozzy
say "because that's when I'm retiring." Sounds reasonable to me!

With 200 billion stars in the Galaxy, and 10,000 ETI civilizations,
Each of these ETIs need to send beacon signals to an average of
10million stars in its neighborhood continuously.

With a message reading:

"Simply send 6 x 10^50 atoms of hydrogen to the star system at the top of
the list, cross off that star system, then put your star system at the
bottom of the list and send it to 100 other star systems. Within one-tenth
of a galactic rotation you will receive enough hydrogen to power your
civilization until entropy reaches its maximum! IT REALLY WORKS!"

'-)

"The Gas Giant" wrote in message
...

"Rob Dekker" wrote:

Where does this 20 year number come from ?

Can't remember where or when I heard it, but I distinctly heard Shozzy
say "because that's when I'm retiring." Sounds reasonable to me!

With 200 billion stars in the Galaxy, and 10,000 ETI civilizations,
Each of these ETIs need to send beacon signals to an average of
10million stars in its neighborhood continuously.

With a message reading:

"Simply send 6 x 10^50 atoms of hydrogen to the star system at the top of
the list, cross off that star system, then put your star system at the
bottom of the list and send it to 100 other star systems. Within one-tenth
of a galactic rotation you will receive enough hydrogen to power your
civilization until entropy reaches its maximum! IT REALLY WORKS!"

'-)



Neat - a galactical chain letter (of sorts)!

jm

Seth was the first to notice that when other scientists were asked
"when will we find the signal?", the answer was typically just before
that scientist would retire. I'm not sure of his age or plans, but I
suspect Seth will retire before 20 years.

The reasoning behind "20 years" is that with certain assumptions about
the factors in the Drake equation, and the transmitter, and etc., Seth
concludes we need to search about a million stars with good sensitivity
over a wide range of frequencies. We plan to search a million or more
stars at the ATA. How long that will take depends a bit on the
efficiency with which we deal with terrestrial signals, but it could be
twenty years.

I, personally, do not make any predictions. ;-)

The Gas Giant wrote:
"Rob Dekker" wrote:

Where does this 20 year number come from ?

Can't remember where or when I heard it, but I distinctly heard Shozzy
say "because that's when I'm retiring." Sounds reasonable to me!

With 200 billion stars in the Galaxy, and 10,000 ETI civilizations,
Each of these ETIs need to send beacon signals to an average of
10million stars in its neighborhood continuously.

With a message reading:

"Simply send 6 x 10^50 atoms of hydrogen to the star system at the top of
the list, cross off that star system, then put your star system at the
bottom of the list and send it to 100 other star systems. Within one-tenth
of a galactic rotation you will receive enough hydrogen to power your
civilization until entropy reaches its maximum! IT REALLY WORKS!"

'-)

In message rio.net,
jm writes

"The Gas Giant" wrote in message
...

"Rob Dekker" wrote:

Where does this 20 year number come from ?

Can't remember where or when I heard it, but I distinctly heard Shozzy
say "because that's when I'm retiring." Sounds reasonable to me!

With 200 billion stars in the Galaxy, and 10,000 ETI civilizations,
Each of these ETIs need to send beacon signals to an average of
10million stars in its neighborhood continuously.

With a message reading:

"Simply send 6 x 10^50 atoms of hydrogen to the star system at the top of
the list, cross off that star system, then put your star system at the
bottom of the list and send it to 100 other star systems. Within one-tenth
of a galactic rotation you will receive enough hydrogen to power your
civilization until entropy reaches its maximum! IT REALLY WORKS!"

'-)



Neat - a galactical chain letter (of sorts)!


Was Vernor Vinge the first person to mention a galactic Internet? (In
his wonderful novel "A Fire Upon The Deep")
If so, you now know whom to blame :-)
(And the computer viruses he describes are the stuff of nightmares)
--
Boycott Yahoo!
Remove spam and invalid from address to reply.

Rob Dekker wrote:

Below, my thoughts on why I think 20 years is excessively optimistic for detecting an ETI beacon,



---
Beacons:

With 200 billion stars in the Galaxy, and 10,000 ETI civilizations, the average ETI neighbor
will be a few thousand lightyears away.
So even our ETI neighbors have not received any radio signals from us yet.

But we may be bathed in signals from lots of neighbors which
have been broadcasting for thousands of years.

With 200 billion stars in the Galaxy, and 10,000 ETI civilizations, Each of these ETIs
need to send beacon signals to an average of 10million stars in its neighborhood continuously.
Otherwise, there is very little chance that there is any ETI beacon aimed at us.

There are about 41,000 square degrees in the sphere of the sky
(according to my back-of-the-envelope calculations). So if
a radio telescope has a beam size of one degree by one degree,
a civilization would only need 41,000 telescopes to cover the
entire sky. All stars, local and remote, would be covered.
Ten million beacon signals are not required, because there
would be overlap.

Why would a civilization being called 'intelligent' spent enormous amounts of effort
to send signals continuously to millions of star systems for which they do not even
know when or if any communicating civilization will ever arise.

No one knows why an alien would do anything. I do not
play the lottery, but I know many who do.

Now I am a SETI enthousiast, but we need to be realistic.
Unless there are millions upon millions of ETI civilizations out there, the odds are
very much against us finding ANY beacon signal at all.

But if we don't look, we won't find anything.

We probably need to detect another civilization by other means (such as radio leakage),
which requires much larger antenna arrays than the ATA, and thus much more time than 20 years.
Or 'it' (detecting ETI) will happen totally different than we think.

I agree that there is likely more radio leakage than
intentional beacons. But we have NO idea of how powerful
this leakage is. Maybe ETI are doing powerful planetary
radar. Maybe they are communicating with a colony on a star
a couple of light years away. Maybe they are trying to
communicate with a space probe which has a damaged receiver.
If we happened to be in line with these powerful, beamed
broadcasts, we could conceivably receive a LOT of power.

Russ

Rob

"Russ Childers" wrote in message ...
Rob Dekker wrote:

Below, my thoughts on why I think 20 years is excessively optimistic for detecting an ETI beacon,



---
Beacons:

With 200 billion stars in the Galaxy, and 10,000 ETI civilizations, the average ETI neighbor
will be a few thousand lightyears away.
So even our ETI neighbors have not received any radio signals from us yet.

But we may be bathed in signals from lots of neighbors which
have been broadcasting for thousands of years.

Thus beacons. See below.


With 200 billion stars in the Galaxy, and 10,000 ETI civilizations, Each of these ETIs
need to send beacon signals to an average of 10million stars in its neighborhood continuously.
Otherwise, there is very little chance that there is any ETI beacon aimed at us.

There are about 41,000 square degrees in the sphere of the sky
(according to my back-of-the-envelope calculations). So if
a radio telescope has a beam size of one degree by one degree,
a civilization would only need 41,000 telescopes to cover the
entire sky. All stars, local and remote, would be covered.
Ten million beacon signals are not required, because there
would be overlap.


You seem to suggest a omni-directional beacon.
41,000 telescopes each receiving 1/41,000th the power, each transmitting
to 1/41,000th of the sky is similar to sending full-power to an omnidirectional antenna.

We had some talk about this earlier in the NG, and the main conclusion is that
omnidirectional beacons are not possible for any civilization. Just do the power-calculations.
A single omni-directional beacon which reaches a million stars or so would require more
energy than the entire ETI population is using.
Or, to word it differently : if the beacon targets each star system inividually, it
can obtain the same signal strength at each target star with orders of magnitude
lower power requirements.

Why would a civilization being called 'intelligent' spent enormous amounts of effort
to send signals continuously to millions of star systems for which they do not even
know when or if any communicating civilization will ever arise.

No one knows why an alien would do anything. I do not
play the lottery, but I know many who do.

I think it is more subtle than that. If there are multiple lotteries, you would choose the
one that has the highest probablility of return. That is intelligence.

If the goal is to contact an emerging ETI, and there are very few ETIs emerging in the galaxy
(1 per year or so using the Drake formula with reasonable numbers) then it is much more
efficient to wait until you detect an 'emerging civilization' leakage signal than it is to
keep on beaming to star systems that do not respond to beacon signals send in the past.

If you don't know if a star system has intelligent inhabitants, then it makes no sense to
send a beacon signal continuously. You might want to send a signal every 100 or 1000 years
(depending on the distance from them) or so, just to probe if some civilization emerged.
That should be more than enough as a beacon.

But if you detect an emerging civilization radio-leakage signal from a star system, then you
know that there is somebody there, so then you can turn the beacon on immediately,
and continuously.

Technology ETIs did not become technology ETIs by being extremely wastfull and
constantly choosing the most expensive solutions to problems.

Based on that, for a beacon to be turned on and aimed at us, it should make a big difference if the ETI has detected us or not.


Now I am a SETI enthousiast, but we need to be realistic.
Unless there are millions upon millions of ETI civilizations out there, the odds are
very much against us finding ANY beacon signal at all.

But if we don't look, we won't find anything.

Yep. That's why I'm cranking work units like a mad man.
We just need to be realistic about the odds. The odds of any beacon being there are extremely low.


We probably need to detect another civilization by other means (such as radio leakage),
which requires much larger antenna arrays than the ATA, and thus much more time than 20 years.
Or 'it' (detecting ETI) will happen totally different than we think.

I agree that there is likely more radio leakage than
intentional beacons. But we have NO idea of how powerful
this leakage is.

Well, we have one example of an 'emerging' technology civilization.

We leaked lots of narrowband TV carriers into space, and still leak a lot of radar signals.
This can be considered a 'wave' of emerging radia signals, which has a certain strength.
In this NG we even calculated how large antenna arrays would need to be to detect such a wave.

They must be large : (100s of km diameter) for detection of leakage at 1000 LYs, but this is certainly
within the possibilities of advanced civilizations. They might need these very large arrays
anyway for radio-astronomy purposes.

We are most certainly hundreds of years away from building such gigantic arrays.

For ETIs within 25LYs of us, if they have a 10km diameter antenna array,
they could have detected us starting some 25 years ago. If they turned on a beacon,
then we can receive it any moment now. This is very analogous to the movie "Contact",
and I still see that as a much more likely scenario than looking for 'blind' beacons elsewhere.

25LYs only encompasses a hundred stars or so, but the silence so far says something about
the prevalence of ETIs in the neighborhood. At least something about the prevalence of
ETIs that can and want to communicate with us.


Maybe ETI are doing powerful planetary
radar. Maybe they are communicating with a colony on a star
a couple of light years away. Maybe they are trying to
communicate with a space probe which has a damaged receiver.
If we happened to be in line with these powerful, beamed
broadcasts, we could conceivably receive a LOT of power.


True. But the further advanced a civilization, the narrower the beam to the probe will be,
so the chances of being in 'line' with that beam diminish.

It is a BIG space out there...

Russ

Rob

Hello

There is no chance at all because you have not found me. I transmit on 109
GHz intermittently to keep in touch with a two way data link. My end is up
to 25 watt omni. The target is orbiting Jupiter but there is a complex
system of sattelite relays for all the tagged specimens such as myself.

You can laugh, but if you agree to meet me in south London, like in a
library with some simple directional microwave detector you will get my end
within 25 minutes, a matter which I have no control over. My object is to
make contact and being recognised is the first step. By the way the body I
took over has a scarred and slighly abnormal face due to an inherited
defect. This will put you off.

Contact me off list:


As usual remove the (no-spam) text string.

Chris.
"Russ Childers" wrote in message
...
Rob Dekker wrote:

Below, my thoughts on why I think 20 years is excessively optimistic for
detecting an ETI beacon,



---
Beacons:

With 200 billion stars in the Galaxy, and 10,000 ETI civilizations, the
average ETI neighbor
will be a few thousand lightyears away.
So even our ETI neighbors have not received any radio signals from us
yet.

But we may be bathed in signals from lots of neighbors which
have been broadcasting for thousands of years.

With 200 billion stars in the Galaxy, and 10,000 ETI civilizations, Each
of these ETIs
need to send beacon signals to an average of 10million stars in its
neighborhood continuously.
Otherwise, there is very little chance that there is any ETI beacon aimed
at us.

There are about 41,000 square degrees in the sphere of the sky
(according to my back-of-the-envelope calculations). So if
a radio telescope has a beam size of one degree by one degree,
a civilization would only need 41,000 telescopes to cover the
entire sky. All stars, local and remote, would be covered.
Ten million beacon signals are not required, because there
would be overlap.

Why would a civilization being called 'intelligent' spent enormous
amounts of effort
to send signals continuously to millions of star systems for which they
do not even
know when or if any communicating civilization will ever arise.

No one knows why an alien would do anything. I do not
play the lottery, but I know many who do.

Now I am a SETI enthousiast, but we need to be realistic.
Unless there are millions upon millions of ETI civilizations out there,
the odds are
very much against us finding ANY beacon signal at all.

But if we don't look, we won't find anything.

We probably need to detect another civilization by other means (such as
radio leakage),
which requires much larger antenna arrays than the ATA, and thus much
more time than 20 years.
Or 'it' (detecting ETI) will happen totally different than we think.

I agree that there is likely more radio leakage than
intentional beacons. But we have NO idea of how powerful
this leakage is. Maybe ETI are doing powerful planetary
radar. Maybe they are communicating with a colony on a star
a couple of light years away. Maybe they are trying to
communicate with a space probe which has a damaged receiver.
If we happened to be in line with these powerful, beamed
broadcasts, we could conceivably receive a LOT of power.

Russ

Rob

Rob Dekker wrote:
"Russ Childers" wrote in message ...

snip

25LYs only encompasses a hundred stars or so, but the silence so far says something about
the prevalence of ETIs in the neighborhood. At least something about the prevalence of
ETIs that can and want to communicate with us.

Not necessarily. There could be an Alpha Centauri civilization
beaming radio in our direction at 6.022 GHz for the past 50 years.
If we don't look at Alpha Centauri in the 6.022 GHz band, then
we won't detect them.


Maybe ETI are doing powerful planetary
radar. Maybe they are communicating with a colony on a star
a couple of light years away. Maybe they are trying to
communicate with a space probe which has a damaged receiver.
If we happened to be in line with these powerful, beamed
broadcasts, we could conceivably receive a LOT of power.



True. But the further advanced a civilization, the narrower the beam to the probe will be,
so the chances of being in 'line' with that beam diminish.

Not necessarily. Suppose they are using radar to detect
"killer asteroids". A narrow beam would slow down their
search.

We can only guess at the power, frequency, modulation, and sky
coverage of ETI transmitters.


Russ