Intergalactic Traveling Methods

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In summary, quantum entanglement may one day be able to be used to transmit information, but for now it is not possible.
  • #1
maximus
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for any science-fiction type interplanetary colonization to take place (i'm talking large scale like Star Wars or Star Trek) we first need a more efficient method of travelling. so, in your opinion, which of the many ideas out there is most promising. Examples are WORMHOLE TRAVELING, the HYPERSPACE or SLIPSTRING thingy, DIMENSION SKIPPING, REALLY LONG VOYAGES ON REALLY BIG SHIPS, etc. (if there are any that I've forgotten please fill me in)

~a pondering nerd

P.S.: should i make i poll?
 
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  • #2
I should think that travel from one Gallaxy to another would not happen unless some way can be devised to make use of whatever phenominon is behind quantum entanglement. A form of teleportation.

For interstellar travel within this gallaxy, really long voyages in really big ships seems most probable, as the other methods are not known to be possible, but this method is.
 
  • #3
It's a pity that quantum entaglement, at least as presently understood, cannot transmit any information.

- Warren
 
  • #4
Until we achieve faster then light travel i don't think anyone is going to bother exploring jack.
Long space travel just isn't feasible or even worth it because by the time the people got there we probably would have devised a faster method and overtaken their wasted journey anyways.
Maybe 200 yrs we'll figure it out...

Saw on tv some scientist guy says he's actually sent sound waves through time. apparently some quantum wormhole. sounds about as promising as the photon teleportation. next time i mutate into a photon itll come in handy.
 
  • #5
chroot said:
It's a pity that quantum entaglement, at least as presently understood, cannot transmit any information.

- Warren

By quantum entanglement, I assume you mean quantum inseperability?

It'd be amazing to have such a system across the universe! I'm guessing that one person would download himself to the quantum inseperability/entanglement hub, and be created somewhere else. The advantages of this would dwarf ordinary (light-speed limited) teleportation; Both trips are instantaneous to the 'loader, but the Q-S/E method is truly a to b stat.

Over and out.
 
  • #6
chroot said:
It's a pity that quantum entaglement, at least as presently understood, cannot transmit any information.
Why not, if I may ask? My understanding of this subject is very limited to say the least, but I was under the impression that quantum entanglement means that changes to one of two entangled quantum systems will instantly be reflected in the other system. So why can't this be used to transmit information? Are you saying that it is technically impossible at the moment, because of our limited technology, or that it is not theoretically possible and never will be?
 
  • #7
Chen said:
Why not, if I may ask? My understanding of this subject is very limited to say the least, but I was under the impression that quantum entanglement means that changes to one of two entangled quantum systems will instantly be reflected in the other system. So why can't this be used to transmit information? Are you saying that it is technically impossible at the moment, because of our limited technology, or that it is not theoretically possible and never will be?


It's an importaant point that quantum mechanics does predict the entanglement but also does not allow information to be sent using it. The real handicap is that any observation of either particle breaks the entanglement. So if you twiddle one of the paricles to send a bit, the entanglement is then broken and you can't do any more with that pair. But at the other end, the measurement of the (now unentangled) other particle can't tell if it was originally in one state ot the other. It takes two observations to do that.

It's only "after the fact" that you can collect statistics on many pairs and observe that the states of the separated particles are more correlated than classical physics would predict.
 
  • #8
Gravimetric Engines very well could get up to near light speeds so fast that the travel is near instanteous aboard the ship, but of course outside the ship time would progressse normally :(.
 
  • #9
I realize that once you "read" the information you break the entanglement, but is it still possible to send information? If we just want to send the information of one bit, could we? And then to send larger blocks of information you would need more entangled system, but theoretically is it possible?
 
  • #10
Chen said:
I realize that once you "read" the information you break the entanglement, but is it still possible to send information? If we just want to send the information of one bit, could we? And then to send larger blocks of information you would need more entangled system, but theoretically is it possible?
You may have the tiniest inklings of what might, in time, become a cool way to transmit information. Why not take the time to develop the idea further? Describe, in some detail, how you in Israel, on planet Earth, can transmit information to my twin, on an Earth-look-alike planet, circling a G-type star in M31?
 
  • #11
Nereid and Chen,

How do you tell at the far end which particle switched? You get a random spread of (let us say) spin orientations over zillions of particles (i.e. one end of zillions of pairs). Somewhere in that white noise is a bit, but where?

I used to think you could line up all the pairs to spin along some preselected axis. But that is a measurement and destroys the entanglement. There is a theorem that says you can't amplify a given spin orientation, i.e. take one pair and produce zillions of copies (or even one copy) spinning the same way. So the pairs you are given are randomly oriented.

Suppose as someone here has suggested you arrange a filter that blocks all but one orientation. We can think of it classically as a narrow gate; any particles spinning up or down with respect to the gate will pass and any other particles will be blocked, giving us a mono-oriented beam. We can send a bit by destroying that orientation for one particle which automatically also destroys it for the entangled other. These randomly oriented particles would stand out in the mono-oriented background. Trouble is, I am pretty sure that in the quantum world, the initial filtering would count as a measurement, even on the "passed" particle. I don't have a proof of this but I am pretty sure it's true.
 
  • #12
At the "sending" end of the quantum-entanglement communications link, you cannot control which spin (either up or down) your entangled particle will wind up with. As a result, you cannot control which spin the entangled particle on the "receiving" end of the link will come up as. You can only transmit random bits.

It'd be a great way to create and transmit a one-time-pad though!

- Warren
 
  • #13
Nereid said:
You may have the tiniest inklings of what might, in time, become a cool way to transmit information. Why not take the time to develop the idea further? Describe, in some detail, how you in Israel, on planet Earth, can transmit information to my twin, on an Earth-look-alike planet, circling a G-type star in M31?
Are you trying to mock my admittedly limited knowledge on the subject, or what? :confuse: Because if you are, I really fail to see the point.
 
  • #14
No, and I apologise if it came across that way. :redface:
 
  • #15
Not nearly as exotic as the suggestions above-

In his Space Odyssey novels, Arthur Clarke was dealing with "mere" interplanetary travel within the solar system. All but two of his human characters were put into some sort of cold-storage state, where their metabolism was slowed down to a crawl. Maybe in a few hundred years there will be technology to do this, but I would imagine it would only be practical for voyages of months, not centuries. I think Clarke's interplanetary vehicle was powered by nuclear fission heating a liquid to plasma and ejecting it at high exhaust speed.
 
  • #16
Big ships Long time

yep. yep. yep.
 
  • #17
What about sending Morse Code signals FTL? You wouldn't worry about detailed information - either the signal (entangled particle) is sensed or it isn't...
 
  • #18
No information FTL in quantum mechanics. You have to abandon standard QM to get FTL (such as Bohmian mechanics).
 
  • #19
That's not nessecarily true. In some cases, quantum effects produce FTL phenomena. For example, squeezed vacuum states and Casimir-type effects (ie, the so-called "zero-point energy") all create negative energy, which can be used in things like the Alcubierre drive or the Krasinov tube, both of which are FTL metrics.
 
  • #20
Quantum mechanics is not yet mated to general relativity, which is where the Alcubierre solution of Einstein's equations has its being. The use of the Casimir effect to meet the negative energy requirements of Alcubierre is purest speculation. Zero point energy is also. There is no true transfer of information FTL within proper quantum mechanics.
 
  • #21
Perhaps I should have said standard model physics. Squeezed vacuum state experiments have verified that negative energy can be produced, and metrics like Nan Den Broeck's (sp?) solution demonstrate that it is possible to utilize this energy for FTL travel.

Nevermind that it requires energy densities of about T^00=-6.6*10^93 kg*m^-3, or that such energy densities would be blown apart almost instantly, or that most theorists now believe negative energy cannot be isolated from the positive energy required for it's creation.

The scariest thing about intragalactic travel methods, I think, is that any method of quickly traveling about the galaxy inherently involves a device which can utilize and manipulate large amounts of energy in concentrated form over relatively brief periods of time; they are inherently weapons of mass destruction. No talk of species maturity here: a single nut with control over negative mass on a solar scale could destroy a planet. A frightening thought.
 
  • #22
Could be the answer to Fermi's question: Where are they?
 
  • #23
Well, we sure as hell aren't the only life in the entire universe. The most likely reason we've not heard anyone is because intelligent life is sparse, and we've only just achieved the power to communicate beyond our planet. (I.E. television/radio) Sentient life might use a different method of long-distance data transfer, such as lasers. Such communication is relatively silent, having little or no leakage over distance.

For near-luminous to super-luminous travel, you have to figure out how to reduce or control your inertia. Using negative matter, extracted from some sort of Casimir engine, would reduce your virtual mass slightly. With less inertia, you can accelerate faster. Having exact equal amounts of matter and negative matter could let you accelerate to your exhaust speed instantaneously, with no harmful affects. Only until you try to go faster does inertia catch on and increase it's effect. It doesn't really matter; I'm assuming that the Casimir engine would be carried along. Therefore, you can create as much exotic matter as you'd like, just to unreplenish your virtual mass.

Over and out.
 
  • #24
They're talkin, but we ain't hearin?

Re: Fermi's question - "Where are they"

Just two of many possibilities:

1) FTL communication of ANY kind simply isn't possible. It's like trying to come up with a perpetual motion machine. No matter HOW long ANY culture has to advance its technological expertise, a thousand years, a MILLION, it doesn't matter. Turns out FTL communication of ANY kind just isn't possible in this universe, and it never will be.
In which case...

It's so G.D. expensive to build pretty much any kind of transmitter with the power to send messages over long enough distances to get to anyone who could possibly be listening, while still delivering a strong enough signal on the receiving end to be detected let alone understood above b.g. radiation, that no one ever dedicates the effort to doing it.

It takes SO many THOUSANDS of years for messages traveling near light speed to make the trip that it's just plain flat out useless as any form of "communication", and as a result, again, nobody bothers trying it on the scale required for anyone to actually be able to pick it up against background radiation over the distances involved.

Somebody out there DID try it, for over nine thousand years before giving up, but the signals they sent either haven't gotten here yet, or the last signals sent passed our planet by two thousand years ago, so we missed it.

2) FTL communication isn't just possible, but our entire universe is awash in a thick sea of FTL communications between countless interstellar communities, but NOBODY is idiot enough to try using electromagnetic radiation as a carrier due to it's inherent limitations, so, since we aren't even aware of whatever the hell physical phenomena are used to do the trick, we aren't hearing all the gabbing going on all around us.
I.e., while we're still sending up smoke signals modulated by an ox hide blanket over a burning log, (and naturally watching the horizon for someone else's smoke signals), everyone else is using the equivalent of digital satellite communications to send and receive their equivalent of everything from I Love Lucy re-runs, to billing information and BBS rants, that our current level of technology is simply unable to detect in any way at all.

Monsters
 
  • #25
Fermi was great at back of the envelope calculations. One of them is that if it takes, say, 1000 years on the average to travel from one inhabited star system to another, and you send out self propagating robots ("von Neumann machines"), then in only a couple of million years, an eyeblink galactically, you could visit every such star system in the galaxy. So the robots, at least, should have beeen here.
 
  • #26
MythioS said:
Until we achieve faster then light travel i don't think anyone is going to bother exploring jack.
Long space travel just isn't feasible or even worth it because by the time the people got there we probably would have devised a faster method and overtaken their wasted journey anyways.
Maybe 200 yrs we'll figure it out...

Saw on tv some scientist guy says he's actually sent sound waves through time. apparently some quantum wormhole. sounds about as promising as the photon teleportation. next time i mutate into a photon itll come in handy.


theoretically, faster-than-lightspeed-travel works. Notice the key word, theoretically. Meaning, it works on paper. We do not have the technology to propel man, much less anything larger, to speeds that fast...
 
  • #27
I think we need to concentrate on all this “Dark Matter/Energy”. Something tells me that we’re not seeing the big picture. :) I feel that once we design something to see and harness all this ‘invisible energy’, FTL travel using this new technology will not only be possible, but will be brainlessly easy to understand. ;)

Einstein only went down one road at the fork, there’s a whole other scene he missed.
 
  • #28
Who needs FTL? As long as we're fantasizing, I think there is a romantic element to interstellar travel being so terribly slow, and communications between solar systems being limited to lightspeed. Why not consider more "conventional" methods that could propell a ship to significant fractions of the speed of light? 0.1c would be incredible in my book. 40 years to Alpha Centauri? I'll take it.
 
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  • #29
Since gravity-accessible branes may lie within a fraction of a centimeter from one another, why not just shift our current gravitational phase to "short-circuit" across distant electromagnetic space?
 
  • #30
TALewis said:
Who needs FTL? As long as we're fantasizing, I think there is a romantic element to interstellar travel being so terribly slow, and communications between solar systems being limited to lightspeed. Why not consider more "conventional" methods that could propell a ship to significant fractions of the speed of light? 0.1c would be incredible in my book. 40 years to Alpha Centauri? I'll take it.

Who’s going to pay for your Tang and PB&J? :D A lot of fuel, food, water, air and energy for a 40 year trip IMO.


Booda: What speak you of this “gravity-accessible branes”? Could you please explain in more detail?
 
  • #31
Arctic Fox said:
Who’s going to pay for your Tang and PB&J? :D A lot of fuel, food, water, air and energy for a 40 year trip IMO.

As if warping space and time to travel faster than light wouldn't require a stupendous amount of energy.
 
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  • #32
LOL! Possibly true. :D

I was thinking of my own theories on FTL travel which the technologies are quite simple compared to the usual line of physics (Einstein). ;)
 
  • #33
Arctic I think he is referring to the theoretical possibility of parallel dimensions basically. And that all of them basically exist overlayn each other. Kind of like ethereal realms or what have you. They all exist next to each other you just can't see them.

There was a special on pbs about a book. The elegant universe. It goes over that concept. The videos may still be available for download.
 

1. What is intergalactic travel and how does it work?

Intergalactic travel refers to the ability to travel between different galaxies in the universe. This is typically achieved through the use of advanced spacecrafts that can travel at incredibly high speeds, often using advanced propulsion systems such as warp drives or wormholes.

2. Is intergalactic travel possible?

While there is currently no technology that allows for intergalactic travel, it is theoretically possible according to the laws of physics. However, it would require a tremendous amount of energy and technological advancements that are currently beyond our capabilities.

3. How long would it take to travel between galaxies?

The time it takes to travel between galaxies would depend on the speed of the spacecraft and the distance between the two galaxies. For example, it would take approximately 2.5 million years to travel from the Milky Way to the Andromeda galaxy at the speed of light.

4. Can humans survive intergalactic travel?

Currently, humans do not have the technology or resources to survive intergalactic travel. The distance and time involved would make it extremely difficult to sustain life for such a long journey. However, with advancements in technology, it may be possible in the future.

5. What are the potential benefits of intergalactic travel?

Intergalactic travel could potentially lead to the discovery of new planets, resources, and civilizations. It could also provide a means of escape for humanity in the event of a catastrophic event on Earth. Additionally, it could advance our understanding of the universe and potentially lead to new scientific breakthroughs.

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