New Method Discovered For Making Telescopes On the Moon

NASA scientists have discovered a way to craft very large mirrors using carbon nanotubes, some epoxy, a little bit of aluminum, and large quantities of lunar dust. They say the technique will allow the construction of massive telescopes on the moon without the expense and risk of transporting the mirrors from Earth. Douglas Rabin of the Goddard Space Flight Center is quoted saying, "Our method could be scaled-up on the moon, using the ubiquitous lunar dust, to create giant telescope mirrors up to 50 meters in diameter." While this breakthrough was relatively cheap, NASA is currently offering up to $10 million for other good lunar research projects.

dustbuster

so .. after the mirrors are finished. how do they propose to keep the mirrors dustfree ?

Re:dustbuster

No wind on the Moon, hence...

Re:dustbuster

[Nimey]

Meteorites, micro- and otherwise. They will kick up dust, and if the mirrors have any electric charge, the dust may be attracted as well.

Re:dustbuster

[Ksevio]

Well the lack of wind on the moon should keep the dust from moving off the ground. Any other forces would more likely attract dust to the bottom of the mirror rather than the top so it shouldn't be a problem

Re:dustbuster

[rossdee]

There may not be wind, but there is dust - remember this from 1969:

"40 feet? down 2 1/2, kicking up some dust ..."

Re:dustbuster

[zmollusc]

Duh! The mirrors are *made* from dust! Just keep building until the moon is a disco ball, hit it with the secret orbital defence lasers and play Bee Gees vinyl. Hang on, I think I have got sidetracked.

Re:dustbuster

[complex(179,-70)]

With a static charge perhaps? The moon dust has a pretty high charge by it self iirc, so a reasonably small same-potential charge on the telescope would repel all particles.

Re:dustbuster

[Spydeh]

Solar winds will be caught by these mylar sails... Didn't anyone see Armageddon???

Re:dustbuster

Theres no atmosphere on the moon... Therefore no wind or dust...

Slow process

[SEWilco]

But it takes forever to count out 12 quatrillion nanotubes for the recipe.

Re:Slow process

[J'ai+Friedpork]

It takes forever to count out 6857 grains of salt as well. I suspect they'll just write down "one cup of nanotubes" and be done with it.

Re:Slow process

[Daimanta]

A metric cup or an imperial cup?

Re:Slow process

[Idiomatick]

they'll prolly mix it up and end up exploding.

Re:Slow process

[vux984]

A metric cup or an imperial cup?

I use a tea cup.

Re:Slow process

[Tubal-Cain]

African or European tea?

Re:Slow process

[FernandoBR]

I prefer chinese green tea.

Re:Slow process

[hyades1]

Did you mean one cup or 225 grams?

And didn't we have this argument once already...on the way to Mars?

Re:Slow process

[S.O.B.]

A metric cup or an imperial cup?

FYI, there is no metric cup.

Re:Slow process

[Mat'nik]

I use a tea cup. An imperial cup then.

Re:Slow process

[J'ai+Friedpork]

Perhaps two cups of tea would suspend the nanotubes between them...

Re:Slow process

[Daimanta]

I don't know, WAAAARGGH!

Re:Slow process

[ATMD]

So you mean there's only one cup?

That's a dangerous state of affairs. Although the chance of two girls being on Slashdot simultaneously is ludicrously low, so we should be safe.

Re:Slow process

[negRo_slim]

So you mean there's only one cup? Yup, only one cup. I believe 2 girls did research on the matter and 1 cup was the result.

Practical applications

This should prove a useful means of allowing whalers on the moon to see their prey, which are mostly stuck on Earth.

Re:Practical applications

[Brett+Buck]

We're whalers on the moon
We carry a harpoon
But their ain't no whales so we tell tall tales
And sing this whaling tune

        Brett

Re:Practical applications

[owlnation]

Yes... whalers are all good and well, but what about the Moon Pirates? How will they repel Moon Ninjas if whalers have their telescopes?

Re:Practical applications

[Timoleon]

There was actually a fairly well-known science fiction novel from the last decade that had something about a whale being shot to the moon. Can't remember what the book was, though... Help?

Re:Practical applications

[McWilde]

South Park?

MacGyver-scope

[thesandbender]

using carbon nanotubes, some epoxy, a little bit of aluminum, and large quantities of lunar dust Is there anything he can't do?

looking billions of miles away while ignoring.....

what's all around us. pretending is all the rage nowadays. the lights are coming up all over now. conspiracy theorists are being vindicated. some might choose a tin umbrella to go with their hats. the fairytail is winding down now. let your conscience be yOUR guide. you can be more helpful than you might have imagined. there are still some choices. if they do not suit you, consider the likely results of continuing to follow the corepirate nazi hypenosys story LIEn, whereas anything of relevance is replaced almost instantly with pr ?firm? scriptdead mindphuking propaganda or 'celebrity' trivia 'foam'. meanwhile; don't forget to get a little more oxygen on yOUR brain, & look up in the sky from time to time, starting early in the day. there's lots going on up there.

http://news.google.com/?ncl=1216734813&hl=en&topic=n
http://www.nytimes.com/2007/12/31/opinion/31mon1.html?em&ex=1199336400&en=c4b5414371631707&ei=5087%0A
http://www.nytimes.com/2008/05/29/world/29amnesty.html?hp
http://www.cnn.com/2008/US/06/02/nasa.global.warming.ap/index.html
http://www.cnn.com/2008/US/weather/06/05/severe.weather.ap/index.html
http://www.cnn.com/2008/US/weather/06/02/honore.preparedness/index.html
http://www.nytimes.com/2008/06/01/opinion/01dowd.html?em&ex=1212638400&en=744b7cebc86723e5&ei=5087%0A
http://www.cnn.com/2008/POLITICS/06/05/senate.iraq/index.html

is it time to get real yet? A LOT of energy is being squandered in attempts to keep US in the dark. in the end (give or take a few 1000 years), the creators will prevail (world without end, etc...), as it has always been. the process of gaining yOUR release from the current hostage situation may not be what you might think it is. butt of course, most of US don't know, or care what a precarious/fatal situation we're in. for example; the insidious attempts by the felonious corepirate nazi execrable to block the suns' light, interfering with a requirement (sunlight) for us to stay healthy/alive. it's likely not good for yOUR health/memories 'else they'd be bragging about it? we're intending for the whoreabully deceptive (they'll do ANYTHING for a bit more monIE/power) felons to give up/fail even further, in attempting to control the 'weather', as well as a # of other things/events.

http://www.google.com/search?hl=en&q=weather+manipulation&btnG=Search
http://video.google.com/videosearch?hl=en&q=video+cloud+spraying

dictator style micro management has never worked (for very long). it's an illness. tie that with life0cidal aggression & softwar gangster style bullying, & what do we have? a greed/fear/ego based recipe for disaster. meanwhile, you can help to stop the bleeding (loss of life & limb);

http://www.cnn.com/2007/POLITICS/12/28/vermont.banning.bush.ap/index.html

the bleeding must be stopped before any healing can begin. jailing a couple of corepirate nazi hired goons would send a clear message to the rest of the world from US. any truthful look at the 'scorecard' would reveal that we are a society in decline/deep doo-doo, despite all of the scriptdead pr ?firm? generated drum beating & flag waving propaganda that we are constantly bombarded with. is it time to get real yet? please consider carefully ALL of yOUR other 'options'. the creators will prevail. as it has always been.

corepirate nazi execrable costs outweigh benefits
(Score:-)mynuts won, the king is a fink)
by ourselves on everyday 24/7

as there are no benefits, just more&more death/debt & disruption. fortunately there's an 'army' of light bringers, coming yOUR way. the little ones/innocents must/will be protected. after the big flash, ALL of yOUR imaginary 'borders' may blur a bit? for each of the creators' innocents harmed in any way, there is a debt that must/will be repaid by you/us, as the perpetrators/minions of unprecedented evile, will not be available. 'vote' with (what's left in) yOUR wallet, & by your behaviors. help bring an end to unprecedented evile's man

Aluminum?

[gadget+junkie]

From the article:

"After that, all we needed to do was coat the mirror blank with a small amount of aluminum, and voilÃ, we had a highly reflective telescope mirror," says Rabin.

.....I DO hope that they'll use their tinfoil hat instead of mine!!!!!!

Re:Aluminum?

[Original+Replica]

Aluminum is a form of Aluminium found only in North America.

Re:Aluminum?

[Idiomatick]

you cant give him shit for quoting the article....

Re:Aluminum?

[maxume]

Check the history on that. Some crazy thought that aluminium sounded better, so the guy who first refined it didn't get to name it.

Re:Aluminum?

[colinrichardday]

Canadians say "Aluminum" instead of "Aluminium"? And maybe you should have thought of that before surrendering at Yorktown. Also, according to http://en.wikipedia.org/wiki/List_of_countries_by_English-speaking_population the majority of native English speakers are American.

Re:Aluminum?

[icegreentea]

Canadians do say Aluminum instead of Aluminium (in general).

Forget your stupid observatory!

[0100010001010011]

Forget your stupid observatory! I'm gonna make my own! With hookers! And blackjack! In fact, forget the observatory!

He still needs paperclips

[Solr_Flare]

They'll still need to shuttle boxes of paper clips and rubber bands to the moon so they can make most of the items they need. Thankfully, both are relatively light weight, durable, and don't take up much space.

Re:He still needs paperclips

[Silver+Gryphon]

Nah, Chuck Norris will just slingshot the supplies to the right spot.

Oh great More Outsourcing

[monopole]

Taking away good American mirror grinding jobs and sending them to the moon (probably to be made by illegal aliens) while depriving FedEx of the shipping revenue!
Somebody contact Lou Dobbs!

Re:Oh great More Outsourcing

[J'ai+Friedpork]

If Americans were willing to grind mirrors for fifty cents an hour in hard vacuum, we wouldn't need to use lunar immigrants for the jobs.

Re:Oh great More Outsourcing

Gee... I wonder how many blacks were involved in this? We all know the answer: none.
No Haitians. No Ethiopians. No Somalians.
But remember: "Diversity is our strength", right?

War is peace. etc.etc.etc.

America is going to hell in a handcart. Once the Jews get Nobama into office, it will be open season on 'whitey', (as if it isn't already).

THIRD WORLD PEOPLE = THIRD WORLD COUNTRY

Re:Oh great More Outsourcing

[slimey_limey]

But, you see, they already live on the moon so they're not actually immigrants.

Re:Oh great More Outsourcing

[SEWilco]

He meant to say illegal lunar immigrants, those who sneak across to the Moon without following the proper procedure. And NASA really doesn't like those who don't follow the part of the procedure which involves a rocket.

Re:Oh great More Outsourcing

im down for that where do i sign

The reason they can't transport mirrors

The reason they can't just transport mirrors, of course, is that they're worried about seven years of bad luck.

I, for one...

[J'ai+Friedpork]

...cannot wait to see some mad scientist use this technology to turn the moon into one giant magnifying mirror and having a nice game of "ants on the sidewalk." (And of course, the obligatory welcome to our new super-reflective overlords. Sigh.)

Re:I, for one...

vous n'avez pas aucun friedpork >=(

What's the old method ...

[jamesl]

... for making telescopes on the moon?

Re:What's the old method ...

[J'ai+Friedpork]

Fly heavy, delicate mirrors up in space shuttles, try to assemble on-site, make one extra round trip when it becomes apparent that someone forgot to pack instructions, finish assembly, discover several extra pieces, spend the next decade trying to figure out where they were supposed to go.

Re:What's the old method ...

[Plaid+Phantom]

So, Ikea has an astronomy equipment division?

Re:What's the old method ...

[f()rK()_Bomb]

the old method was liquid mirrors http://inventorspot.com/articles/liquid_lunar_telescope_5345

Re:What's the old method ...

last obligatory quote:
"Those swede's sure so know how to put in almost everything you need."

Re:What's the old method ...

[laddiebuck]

A matter of a missing comma. Imagine "New Method Discovered, For Making Telescopes On the Moon". A new method has been discovered, which allows for making telescopes on the moon.

Re:What's the old method ...

[bornwaysouth]

The article you quote has an interesting photo - 4 people beside a large pool of toxic mercury. No wonder that line of research keeps getting snuffed out.

So why can't you just use a thin foil mirror to melt the lunar sand, and spin it into a high quality mirror?

Re:What's the old method ...

[Hasmanean]

Nuclear blast calculated to produce a parabolic crater, with lunar glass on the surface.

Ingenious

[K.+S.+Kyosuke]

using carbon nanotubes, some epoxy, a little bit of aluminum, and large quantities of lunar dust.

Heck, the first thing that came to my mind was "When did NASA hire MacGyver?" :-) Anyway, the process sounds quite reasonable. And Moon would make a wonderful observatory. I have been dreaming about lunar observatories since I was a kid quarter a century ago (at that time, I stumbled upon books written by a well-known local popular science writer).

No atmosphere, sixth the gravity, little need for compensating the structure deformations? Sounds good. The question is how heavy the manufacturing equipment would be. And there might more problems at least with optical telescopers - I recently stumbled upon a nice article on this topic.

First time using extraterrestrial materials?

[suso]

So would this be the first time in history that humanity would be using materials from off the earth to construct something?

Re:First time using extraterrestrial materials?

[ikkonoishi]

Not really.

Re:First time using extraterrestrial materials?

[jascha.cohen]

More accurately, it would appear to be the first time that we (humans) have manufactured something off-planet with native resources. As noted, we've used extra-terrestrial materials before in the form of meteor/asteroid material. It *is* pretty exciting, if just for the proof-of-concept that we can "live off the land" (so to speak) off-world.

Re:First time using extraterrestrial materials?

[someone1234]

Once it is found on Earth, it is not really extraterrestrial.
If you count material that just fell on earth after its creation, then i guess half of your body matter is extraterrestrial.

Re:First time using extraterrestrial materials?

Once it is found on Earth, it is not really extraterrestrial.

It is of extraterrestrial origin, hence it's extraterrestrial. Due to chemical reactions it will become terrestrial sooner or later, however.

If you count material that just fell on earth after its creation,

Creation? Oh Lord, earth has not been created in years. It just fell from heaven.

then i guess half of your body matter is extraterrestrial.

Well, for the chemically not-so-firm believers in creation:

1. If I send a spaceship into orbit, let it pick up some flying stone there and bring it back to earth, this stone (be it some salt or pure metal) is extraterrestrial. Yes?
2. If I send a spaceship into orbit, let it pick up some flying stone there and let it throw the stone down to earth, this stone is still extraterrestrial. Yes?
3. If I send a spaceship into orbit, let it fly around there, and some flying stone incidentally falls down to earth, this stone, too, is extraterrestrial. No?

Therefore, any stone falling from heaven is extraterrestrial (unless, of course, it's of terrestrial origin). Until it becomes chemically incorporated into earth's matters.

Re:First time using extraterrestrial materials?

[someone1234]

>Creation? Oh Lord, earth has not been created in years. It just fell from heaven.

Nyah, it was created from Sun's accretion disc by the FSM. Its matter still orbits the Sun in the same distance, so I doubt falling is appropriate wording.

Re:First time using extraterrestrial materials?

>Creation? Oh Lord, earth has not been created in years. It just fell from heaven.

Nyah, it was created from Sun's accretion disc by the FSM. Its matter still orbits the Sun in the same distance, so I doubt falling is appropriate wording.

I consider debris accumulating by virtue of gravity as falling. However, more importantly, the term "creation" sounds somewhat ambiguous to me, I'd prefer formation. But I believe your wording you don't believe in creationism (except the scientifically acceptable fact of FSMism ;). Sorry for my harsh remarks concerning creationism.

Still, my main critique remains unanswered: Any stone falling from heaven is extraterrestrial--unless it's of terrestrial origin.

Re:First time using extraterrestrial materials?

[someone1234]

You bring up chemical reactions: the meteorite goes through heavy oxidisation and stress during its entry to the atmosphere.
Water on earth came from ice meteorites too, and Earth gains solid matter from micrometeorites daily as well.

Re:First time using extraterrestrial materials?

You bring up chemical reactions: the meteorite goes through heavy oxidisation and stress during its entry to the atmosphere.

Whether you heat the meteorite before or during entry is irrelevant--it remains extraterrestrial; additionally, heat doesn't have too an impressive impact on many meteorites, and the inner part of most meteorites can't possibly oxidize during entry because of lack of oxygen and other oxidizing agents in there.

Water on earth came from ice meteorites too, and Earth gains solid matter from micrometeorites daily as well.

As long as you can identify this stuff as being of extraterrestrial origin (mainly due to isotope composition), I'd call it being extraterrestrial. After some time of decomposition, however, we become unable to sort the atoms we find in terrestrial (special isotope that's been lying around here since the very early days of earth) and extraterrestrial (isotope that just fell from heaven) ones.

I want a degree in...

[hyades1]

How cool would it be to design and build huge projects in 1/6 gravity? There would have to be some incredible designs that would just be too fragile to stand up under Earth atmosphere and gravity, and the range of materials you could use would seem limitless. Maybe a nest of lasers to give a long-term boost to an interstellar probe?

There's got to be huge advantages to building in a lunar environment, with raw materials available right there, and the chance to create living space just by drilling and sealing instead of fabricating from scratch.

Re:I want a degree in...

[brunokummel]

....There's got to be huge advantages to building in a lunar environment, with raw materials available right there, and the chance to create living space just by drilling and sealing instead of fabricating from scratch.
And huge disadvantages as well...think where will NASA hire workers that will agree to comute everyday to the moon to build that thing...and don't even get me started on the food they serve there it tastes like astronaut food... =)

Re:I want a degree in...

[Plazmid]

You should read this paper then about self-replicating moon robots with lasers to make more robots. http://www.islandone.org/MMSG/aasm/ They could make pretty much anything up there, and shoot it to Earth, via giant coilguns.

Re:I want a degree in...

[Oktober+Sunset]

self sufficient robots on the moon shooting things at earth? I don't like the sound of that...

Re:I want a degree in...

[TruthfulLiar]

> There's got to be huge advantages to building in a lunar environment,
> with raw materials available right there, and the chance to create living space
> just by drilling and sealing instead of fabricating from scratch.

You can create living space by drilling/sealing on Earth. Aside from water table issues (fixable with good sealing), I wouldn't be surprised if you run into some of the same problems on the moon that prevent people from doing that on Earth: rock is pretty hard, and it's just cheaper to build on the surface.

Re:lasers and mirror wipers

Lunar mirror wipers, of course, and lasers to deflect any incoming space rocks.

Overheard on comm channel:

[Waffle+Iron]

"They headed towards the dish on that large space station...."

"That's no space station. It's a moon!"

Re:Overheard on comm channel:

"They headed towards the dish on that large space station...."

"That's no space station. It's a moon!"

That's no satellite. It's the m... Wait...

Re:Overheard on comm channel:

What is that giant disc anyways? Somebody shine a light on it now. Oh god, it's a parabolic mirror... MY RETINAS!

I'm the moon

[jjeffries]

When you are the moon, there is a person people say is the sun. I saw the sun once, and he came past me, really fast. And it was an, it was called, the, an eclipse. And he came fast! But as he came past, I, I licked his back.

And he doesn't know I licked his back! All in his yellow suit!

I'm the moon.

Re:I'm the moon

Nothing like a little trip on a Saturday afternoon.

Re:Dr Evil

[xeoron]

Hire Dr. Evil to adapt his pet sharks with "Lasers" to be more like fish tank sucker fish that can co-exist in the Lunar habitat and enjoy new extreme environments for them to play, work, and live it, or perhaps have him create some kind of robo-sucker-wiper-kill-bot.

Would it survive the heat?

[ratpick]

Doesn't it get really hot where the sun shines on the moon, because of the lack of atmosphere?

Re:Ingenious..But

[arthurpaliden]

The problem that I see is that they will first have to build the fabrication facility and if they are going to spin a 50m morror that is going to be one large building.

One of those "next" steps seems hard

[slew]

Sure transporting carbon nano-tubes and some expoxy and aluminum to the moon might not be to bad, but did anyone think of the "next" step?

They next applied additional layers of epoxy and spun the material at room temperature.

Getting a large enough volume at room temperature (assuming you need some air pressure too) on the moon to mix it with epoxy and spin it (also presumably at room temperature) might be pretty hard to do without some bulky equipment. Although vacuum coating the mirror blank might seem easier on the moon, as other commentors noted, how do you keep it dust free?

So to summarize...

1. Bring epoxy, carbon nanotubes, aluminum and big spinner to the moon
2. ???
3. Coat resulting lunar dust blank with aluminum to make a mirror
4. Profit?!? (until it's covered with dust)

Re:One of those "next" steps seems hard

[jeepien]

... as other commentors noted, how do you keep it dust free? Just don't spill any dust on it, and it will stay dust free.
There's no wind on the moon, so dust doesn't blow around. The dust on the ground is no more likely to jump up and land on the mirror than a boulder would be.

Re:One of those "next" steps seems hard

[Esteanil]

The footprints the first astronauts left on the moon 39 years ago is still preserved.
The moon lacking an atmosphere, and there as such being no weather, the moon dust is quite stable.
It only shifts when something (like an astronaut's boot or a meteorite) pushes it, so the odds of a mirror staying largely dust-free are pretty good.
As to spinning stuff in room temperature on the moon... That part sounds harder :p

Re:One of those "next" steps seems hard

[confused+one]

Actually, there are static electric potentials set up as the moon passes through Earth's magnetotail and also as the terminator passes over the surface. These are believed to kick dust up -- we have some evidence from equipment left by Apollo astronauts. To be honest, we won't know for certain until we go back and look.

Astronaut 1} "OK, you stand there and tell me what happens."

Astronaut 2} "Ok..."

Astronaut 1 runs away

Astronaut 2} "Hey, where are you going???"

Kzzzrrtt

Astronaut 2} "You asshole. That hurt! And now I'm all covered in dust..."

Astronaut 1 is heard laughing.

Re:One of those "next" steps seems hard

[Ravon+Rodriguez]

It's the meteorites that I'd worry about. The moon, having no atmosphere, gets impacted a lot more than earth.

Re:One of those "next" steps seems hard

[piemcfly]

A lunar vacuum cleaner perhaps?

Re:One of those "next" steps seems hard

Umm - there are some pretty severe temperature swings on the moon, and that expansion and contraction means that the 'dust' in the footprints is going to move. They've already faded a good bit. Someday the footprints will be undetectable (and that day may be here already).

Re:One of those "next" steps seems hard

Sounds like a 'Space Argument' Script

http://www.youtube.com/watch?v=N_DjsmkD1fw

Newsflash: Scientists find new way to get funding

[16384]

Using a ingenious new method of buzzword combination, scientists found a way to get funding to do what they want to do, selling it as method to do whatever the funding agency wants, wherever they need it. A new, more ambitious project, will employ nanotubes enhanced with teraherts waves, as a bio-reactor to create biodiesel, clean coal, and solve global warming, creating just the right amount of tritium needed to feed their fusion generator.

In other news...

...scientists are researching applications of Carbon Nanotubes in curing cancer, bringing about World Peace, discovering the Meaning of Life, superluminal travel, and journeying to the center of the Earth.

Lunar mirror fab means big manufacturing changes

[skoda]

Astronomical telescope mirror manufacturing is a labor intensive, hands-on, non-automated process. And the culture of aerospace is highly risk averse: this comes from the very customers, like the good people at NASA Goddard.

Lunar telescope manufacturing would require some exciting scientific, engineer, and processing improvements that would also pay off for terrestrial manufacturing.

First, assuming they're not planning to house and employ a standard aerospace company, with 1000 engineers, technicians, and managers on the moon, this would be fully automated. Mirror making is anything but automated. The development of highly automated methods for processing and testing mirrors would be quite a move forward. It would also have direct benefits for conventional manufacturing.

Second, making a mirror on the moon would seem to require a tolerance of risk currently not accepted. Every time a mirror is moved, a crew of people must oversee the affair, sign the (physical) paperwork, and manually inspect the mirror afterwards. For lunar construction, this would have to become an assembly line that ran without that direct oversight, paperwork, or crews. Enabling more efficient methods would certainly benefit normal processes as well.

Moreover, the task of creating such a facility would keep many, many aerospace workers employed for years :)

What happens when they run out of lunar dust?

Like oil, it's a finite resource and shouldn't be wasted on trivialities like telescopes.

Al Gore already invented this

[Dachannien]

...shortly after he rode the mighty moon worm.

Someday...

[FurtiveGlancer]

Humans will be living on the moon and this means they'll probably be living in glass houses.

Perfect for boss

Perfect for my boss who can't seem to have enough of his own mug.

http://fukq.jimdo.com/

Re:mythbuster

[stargrazer]

Until twilight hits...
http://science.nasa.gov/headlines/y2005/07dec_moonstorms.htm

Ikea

[camperdave]

So, Ikea has an astronomy equipment division?

Yes, their biggest seller is called Skope, but you can also get the Refraktor or Kassegrain.

How much epoxy? and other problems

[drwho]

While this sounds like a great idea, I want more information before I accept their "Eureka!". How much weight is actually saved? What percentage of this 'lunar concrete' will be lunar dust, and how much of it will be materials brought up from space?

How is it going to be aluminum plated? To use the minimal amount of aluminum here on earth, we would use electroplating - which requires that the entire dish be put in an electroplating tank - and that's going to be one big tank! I am not so sure that you can get the smooth finish needed with any sort of 'paint'. But maybe there's something I'm missing, and that a telescope of that size need not be built to the same stringent tolerances as the Hubble.

Next, it seems as though this is being built without any way to 'aim' it. This limits its utility, as we can only look at what the moon is pointing the dish at. Yes, sure, we can built several, that's nice. But what about when the telescope is brought into focus of an intensely bright object, such as the sun? I guess whatever is at the focus of the dish will have to be moved in order to not be 'fried'.

Any what about lunar dust and micro (or macro) meteorites?

Perhaps I ought to see how earth observatories like araciebo work.

While have a tool like this will do wonders for space exploration, and eventual colonization, It's only the first step of the observing network we need, which will be tens or even hundreds of telescopes all over the solar system, which can work in concern to achieve very high resolution and accuracy. This is the kind of data we will need to plan missions, to either find intelligent life (which is doubtful) or to colonize other star systems (which is far more probable).

Re:How much epoxy? and other problems

[ChrisMaple]

Astronomical mirrors are plated by evaporating aluminum in a vacuum. Material requirements are very small.

Once the epoxy has hardened, it can be moved. The mirror can be put in an aimable mount like any other telescope mirror.

My concern is whether this technique actually produces high quality mirrors. Will they be smooth enough and properly shaped? Epoxies do not generally keep a constant volume as they cure, and this will tend to distort the mirror. The forces shaping the mirror (gravity and centrifugal) will be 1/6 as strong as on earth, thus any systematic errors will tend to be 6X larger than on earth.

Pseudo-nanotechnology

[Animats]

The pseudo-nanotechnology people are a pain. Especially when they work for NASA. They make some minor improvement in materials science, then call a press conference to announce giant telescopes on the moon.

Let's see those guys produce one good-sized mirror without polishing before turning on the NASA PR machine.

Discovered?

Where was this method hiding when they "discovered" it?

Transparent aluminium?

[sydbarrett74]

It would be nice if they could create inexpensive shatter-proof windows here on Earth using this technology....and the fact that it contains aluminium means that perhaps the windows could be used to generate solar power...

Re:Transparent aluminium?

[Nefarious+Wheel]

Unless you can see through an opaque substance, you're kind of out of luck. They're manufacturing a type of concrete, which is used as a backing for that thin layer of aluminum. The aluminum does all the reflecting and carries the entire load of useful optical phenomena. Glass is used for mirrors not because of it's transparency, but because of the mechanical and manufacturing properties of melted silica sand. Light doesn't go through an optical mirror, it bounces right off.

So although you could make a house out of the stuff, you couldn't make windows.

Re:Transparent aluminium?

[WyrdOne]

What you were thinking of is Transparent Alumina, an Aluminium Oxide Ceramic.

http://physicsworld.com/cws/article/news/20033

It does *NOT* conduct electricity (at least at room temperature) and if it's a superconductor at lower temperatures I don't know.

However, you *could* coat a window made from Transparent Alumina with a Photovoltaic ink ( http://physicsworld.com/cws/article/news/20033 ) and get a stronger, more durable window with photovoltaic properties. Maybe for those impractical windows shown in the 1950's concept art for habitations on the moon. ( http://moon.jaxa.jp/ja/gallery/moon_base/IMAGE/moon_base06_s.jpg ).

Is this really a BEST method?

[Crookdotter]

If we're thinking about people stationed on the moon, living in habitats big enough to not go nuts in, with either on site energy generation, oxygen production and food supplies, or all of these things shipped in, then I don't see how making and transporting large mirrors in parts and assembling them on the moon is such a complex task. Especially when contrasted against making the thing in situ, in an environment we aren't familiar with, is very deadly and experimental. Think about the factory that would have to be assembled, that could spin a liquid mirror in the vacuum and dust environment of the moon. In many ways, it seems MORE complex to make it up there. I think it's great that people are thinking up these things, but in this case I don't see it as a resource or an energy saver.

Re:Ingenious..But

[confused+one]

Why do you need a building? What "elements" are you protecting the fabrication facility from?

Nitpick

[kievit]

Aren't methods "invented" or "developed", rather than "discovered"?

Re:Ingenious..But

[Torvaun]

What "elements" are you protecting the fabrication facility from? The solid ones that leave craters.

Re:Ingenious..But

[arthurpaliden]

I was thingking more about maintaing the state of the paste while it is spun and cures so that it does not freeze or boil off depending on the amount on sunlight hiting it.

Re:Ingenious..But

[confused+one]

Good God. You have like 2 weeks to do the work during the "day". The Epoxy is going to have to survive exposure to those temperatures in vacuum anyway. If the uncured epoxy boils at temperatures seen on the lunar surface, then it's probably not the appropriate choice; and, most epoxies cure faster if heated. If it doesn't set up within two weeks (minus the time to mix and pour) then you're in trouble.

Re:Lunar mirror fab means big manufacturing change

[khallow]

A quibble here. Why is an "aerospace" company making telescopes on the Moon? Shouldn't it be say an "optics" company?

Re:Lunar mirror fab means big manufacturing change

Sorry for posting as AC, I've been a lurker on these boards for too long.

http://www.sciencefriday.com/newsbriefs/read/113

Anyways, a professor in my physics departement, Ermanno Borra, has been working on a very similar concept for about 20 years. And honestly, it has become pretty much a running joke, seeing how much money he's getting from the government, although he has very few results to show.

He works on liquid mirrors. It uses a liquid that is preferably ferromagnetic and covered with a thin film of silver nanoparticles, so that you can put an array of electromagnets under the spinning mirror to do real-time spatially-continuous adaptive optics. Sounds cool (which it is), but there are a lot of difficulties that come to mind which are presumably common to the project described in TFA.

Firstly, the parabolic shape is always pointing up. Since the mirror is liquid, as soon as you tilt it to the side, it loses its parabolic shape, and becomes useless. Now, the adaptive optics part may help you to try to correct for the distortion, but the best results that Borra managed to get is a correction of a tilting of about a tenth of a minute. Disregard this if the material they use for spinning actually solidifies after a while - you could tilt it afterwards, I guess. Not the liquid one, though Borra has promised a range of 5 to 10 degrees on his device for years.

Even if it becomes hard as concrete, the logistics of tilting a 50-meter wide piece of concrete without any structural deformation is impressive. That means, unless you find a way around this, you'll have to keep your mirror looking up, at all times. So you either place it on the pole, in which case it will be looking at the same place for a very, very long time (until precession slowly moves it around). This is good for doing very deep fields, but hasn't much use otherwise since if there's nothing interesting to look at there, you're stuck there anyways.
Or you can place it anywhere else than the pole, but then you're never gonna look at a given object for more than a couple seconds.

CHROME THE MOON

[Plazmid]

Or they might just chrome the moon: http://www.geocities.com/SouthBeach/1380/crmoon.html

Re:CHROME THE MOON

[J'ai+Friedpork]

"Puff Doggy Bling, your latest album, Yet Another CD, has just gone platinum. What are you going to do now?"

"I'ma chrome the mo'fuggin moon."

Re:CHROME THE MOON

[Plazmid]

Congratulations you've just figured out how to get massive amounts of funding for space exploration, get rappers interested in it. You should work at NASA.

Re:CHROME THE MOON

[negRo_slim]

i dont know how that would work, rappers are more interest throwing metal in their mouth or on the car then actually contributing any use to society. heck while we're at it, lets get professional athletes interested in education!

Space Debris

[prod-you]

And how much will the giant shield (aka atmosphere) cost to protect this mirror from all the meteorites and various junk flying around out there?

Re:Space Debris

[Hasmanean]

It doesn't matter. Each impact to the mirror would merely reduce the light collecting ability of the whole by the %age of the area that is occluded. Try putting a spot on a lens, and see the effect it has on the image. There won't be a spot visible, but the whole image will dim a bit.

Assuming the build the mirror in sections of course...so impacts don't crack the entire thing.

As strong as concrete...

[mykepredko]

Just reading TFA and thinking that, after reading the sentence "When they mixed small amounts of carbon nanotubes and epoxies (glue-like materials) with crushed rock that has the same composition and grain size as lunar dust, they discovered to their surprise that they had created a very strong material with the consistency of concrete.", wouldn't building living (and other) structures on the moon using this material be a better application of this technology?

myke

Re:As strong as concrete...

[sdrawkcab3]

The initiative at the moment is to employ mobile living space on the moon - think RVing on the moon. Since the moon lacks mass transit (at the moment), the ability to move your work crew to a new area is highly attractive. However, we probably wouldn't want to move a large telescope that we build on the dark side of the moon.

Re:As strong as concrete...

[khallow]

A key problem here is that you need carbon nanotubes and epoxies. Currently, that would have to come from Earth. I don't see it being feasible to bring enough for large structures though using current technology. According to this New Scientist article, you need 100 parts lunar regolith to 10 parts epoxy to 1 part carbon nanotubes (with a touch of aluminum powder). If I wanted to build a 1 meter high, 1 meter long, 20 centimeter thick wall, I think it'd take 400 kilograms of lunar regolith (assuming a density of 2 grams per cubic centimeter). That means 44 kilograms of other material. I understand some people guess that the cost of leaving something on the Moon (ie, getting it there intact and leaving it) is order of magnitude of $100,000 per kg. So you're talking around $4 million to put up that bit of wall. However, a partially buried inflatable structure covered with coarse regolith, could require less mass per unit surface area (the air pressure providing a lot of the structure's strength).

Vs. Hubble?

[AdamHaun]

What's the advantage of having a telescope on the moon instead of in space?

Re:Vs. Hubble?

[Velocir]

Size, availability of materials to construct it out of, and, as TFA pointed out, a stable platform to work from.

Re:Vs. Hubble?

A couple advantages, off the top of my head:

If it is build on the moon, it can be much larger than anything that can be carried up in one shot on a rocket.

It doesn't need to be periodically boosted back up into a higher orbit.

Plenty of real estate for large solar arrays/backup systems.

If it is part of a permanent manned outpost, astronauts will be on-hand to do repairs promptly.

Stable surface to stand on means that fragile gyros and limited fuel are not needed.

There are probably more good reasons

Re:Vs. Hubble?

think radio telescopes, not optical. A radio telescope on the far side of the moon will be shielded from all the radio noise we emit from earth.

Re:Newsflash: Scientists find new way to get fundi

[Hasmanean]

That's true. Nanotubes mixed with dust is nothing special. ANY fibrous material mixed in with a binder will produce a composite structure with great strength.

tubes and lunar dust is not much different from mud and straw.

add a radio telescope too...

[Hasmanean]

"Two or more such telescopes spanning the surface of the Moon can work together to take direct images of Earth-like planets around nearby stars and look for brightness variations that come from oceans and continents."

Two telescopes plus a very long radio-telescope array would look like this:

http://www.nasa.gov/images/content/54799main_mars_smiley_face.gif

Re:Ingenious - Peter Chen

Peter Chen is a great guy, has always been willing to give talks and demo his stuff to local astronomy clubs, very open to ideas and willing to answer questions. I wish him all the luck in the world in this project - that's he's been working on for years and years and years...

Yes, and when he got there they said...

"You are the prophet sent to us by Shai-Aku!"

You're right.

[BiggerIsBetter]

Humans will be living on the moon and this means they'll probably be living in glass houses. Which means they probably shouldn't throw stones.

Re:You're right.

[FurtiveGlancer]

And they should defitinely close the curtains. No one wants to see a naked lunatic.

Moondust problem

[sdrawkcab3]

Moon dust isn't as stable as you might think. Static electricity from solar wind causes dust bunny issues up there. http://science.nasa.gov/headlines/y2005/07dec_moonstorms.htm

Re:Moondust problem

[khallow]

I was going to propose that one could build a high wall around the telescope, but as the above articles says, some of this dust apparently can be seen from Lunar orbit, possibly even on rare occasions from Earth! That's a wee bit high. Instead, I imagine that they would repel the dust by apply the appropriate voltage to the outside of the mirror. Also it should be a relatively simple matter to pull dust and other debris off the mirror by charging the mirror and passing an oppositely charged object over the surface (but not close enough that contact or arcing occurs).

Arecibo, Lunar Lawn Mowers, & multiple scopes

[martyb]

... you'll have to keep your mirror looking up, at all times. So you either place it on the pole, in which case it will be looking at the same place for a very, very long time (until precession slowly moves it around). This is good for doing very deep fields, but hasn't much use otherwise since if there's nothing interesting to look at there, you're stuck there anyways. Or you can place it anywhere else than the pole, but then you're never gonna look at a given object for more than a couple seconds.

A couple of thoughts on this...

First off, I'm reminded of the Lunar Lawn Mower which was proposed as a way to fuse lunar regolith using microwaves. I'll come back to that, later.

Arecibo: As for the mirror being immobile, What about the 305m-diameter Arecibo Observatory in Puerto Rico? Instead of moving the mirror, they move the receiver's location WRT to the mirror, to wit:

it is a spherical reflector (as opposed to a parabolic reflector). This form is due to the method used to aim the telescope: the telescope's dish is fixed in place, but the receiver at its focal point is repositioned to intercept signals reflected from different directions by the spherical dish surface. The receiver is located on a 900-ton platform which is suspended 150 m (500 ft) in the air above the dish by 18 cables running from three reinforced concrete towers, one of which is 110 m (365 ft) high and the other two of which are 80 m (265 ft) high (the tops of the three towers are at the same elevation). The platform has a 93 m long rotating bow-shaped track called the azimuth arm on which receiving antennas, secondary and tertiary reflectors are mounted. This allows the telescope to observe any region of the sky within a forty degree cone of visibility about the local zenith (between -1 and 38 degrees of declination). Puerto Rico's location near the equator allows Arecibo to view all of the planets in the solar system, though the round trip light time to objects beyond Saturn is longer than the time the telescope can track it, preventing radar observations of more distant objects.

Granted, that would then entail creating and operating machinery to move the receiver. That requires power and equipment to construct it as well as operate it. OTOH, nothing says it has to be a 305m dish like Arecibo, or 50m as mentioned in TFA; I'm sure a single 5m or 10m dish, could provide much useful science to start off with.

Array of scopes: As the skills and techniques are developed to construct and operate, say, one 10m telescope on the moon are developed, an array of these could be constructed. Some would aim at the same point overhead so as to provide a larger apparent aperture. Others could point at nearby points overhead so that, as an object under investigation sweeps out of view from one scope, it would already be in view of the next one. This would permit longer-term continuous observation of an object. Then, as more scopes are constructed, one could get both increased apparent aperture AND longer-term observation.

Because gravity on the moon is 1/6th that of the earth, it would take much less infrastructure to support the receiver. This, in turn, suggests less power would be required to move the receiver, too.

Lunar Lawn Mower: This was proposed by Larry Taylor, Distinguished Professor of Planetary Sciences at the University of Tennessee. It was discussed here a while ago: (Slashdot | Lunar 'Lawnmower' Devised for Moon Colonists).

"I'm one of those weird people who like to stick things in ordinary kitchen microwave ovens to see what happens," Taylor confessed to several hundred scientists at the Lunar Exploration Advisory Group (LEAG) conference at NASA's Johnson S

Re:mythbuster

Log parent up! There is one electrically charged dust storm circling the moon from pole to pole every day!