Testing Quantum Behavior — From Earth to the ISS

KentuckyFC writes "Einstein famously believed that the instantaeous effect of quantum entanglement would allow 'spooky action-at-a-distance' in violation of special relativity. Every test of entanglement on Earth has so far agreed with quantum mechanics but naysayers continue to point out various loopholes that might allow the results of these experiments to be determined in advance rather than instantaneously as QM suggests. Today, an international team of scientists is proposing the mother of all entanglement experiments, to be performed in space. The plan is to send entangled photons between an observer on the ground and one on the International Space Station. By the peculiarities of special relativity, the high relative velocity between the observers means that both will always be able to claim to have carried out their measurement first, thereby ruling out the naysayers' arguments (abstract). The experiment, called Space-QUEST, would be housed aboard Europe's Columbus module and would give the much-derided ISS a stab at doing some decent science for a change."

Post

[Stooshie]

I posted this next week and it's still the first post.

Re:Post

[rugatero]

No fair! You changed the outcome by measuring it!

Re:

[Stooshie]

There's nothing to measure (until next week at least).

Re:Post

[skuzzlebutt]

Your comment has been moderated: SqRt(-1): Will Be Insightful

Re:

[x2A]

Speak for yourself. I can certainly lift 10 times a spiders weight.

Re:Post

[kclittle]

Frist posts like this are just sooooo tomorrow, don't you think?

Science coverage on /. is crappy

[YA_Python_dev]

Coverage of science news on slashdot is very often crappy, but we see the worst when it comes to space news.

would give the much-derided ISS a stab at doing some decent science for a change.

"For a change"?!?! Where the hell are you getting your informations about the science done on the ISS? On Fox News? There is *a lot* of science done on the ISS: literally hundreds of small, medium and big experiments have already been completed and the rate is increasing now with the European and Japanese labs on board and will increase even more starting next year with crews of six people.

Sure it would be nice to do even more, and sure the costs are high (in part due to the STS, a nice but incredibly inefficient LV), but all this group-thinking about the "white elephant" ISS is akin to saying that kernel programming is easy. It's stupid, flat wrong and insulting for the people that get a lot of good work and science done.

Re:

[robert899]

would give the much-derided ISS a stab at doing some decent science for a change.

"For a change"?!?! Where the hell are you getting your informations about the science done on the ISS? On Fox News?

Where the hell are you getting your information about science reporting on Fox News? The Daily Kos?

Fox reports science news just as well as other MSM outlets.

Re:Science coverage on /. is crappy

[Actually, I do RTFA]

Fox reports science news just as well as other TV outlets.

Forgive my modification to your quote, but I think that print offers better coverage of science issues. And while Fox News may report science news as well as CNN does, an astrologer reports as much science as either one of them as well. Fox News is crap. If other TV channels are also crap, well, good job my friend, you're still watching crap.

Re:Science coverage on /. is crappy

[cybrpnk2]

Oh, dude, you've gotten me started. I worked on Space Station in the early 1990s and still haven't recovered from the bad taste that experience has left in my mouth. Political boondoggle white elephant doesn't even begin to cover what a stupid mess the ISS is. The only thing worse than setting it up in its shuttle-payload-upmass-hostile 57 degree inclined orbit to allow Russian participation is totally cutting off Shuttle participation in 2010. ISS was DESIGNED for Shuttle resupply during its lifetime and that resupply was first strangled and then totally cut off. Soyuz and Orion taking astronauts to this thing is a joke, and doing resupply by Jules Verne is a criminal waste. The dirty little secret about ISS is that at full mass and max solar array deployment upon completion, this thing is going to deorbit even faster from atmospheric drag than it is now and no way can Progress or Jules Verne is keep the completed assembly reboosted - only the Shuttle could. Do your homework about how far that thing fell during the years following Columbia when no shuttle visited [spaceref.com], and that's without the full solar arrays. Once the Shuttle stops going, ISS is heading straight for the Pacific even if it takes a few years to deorbit and get there. And secretly if not in public, NASA will breathe a sigh of relief when it splashes. But I digress. Nobody even knows anymore how much ISS costs anymore because of crooked accounting hiding the drawing of funds from everywhere within NASA, but nobody argues it's at least $100 billion dollars. I cannot prove an absence of good science. Instead, YOU tell ME what the top three discoveries on ISS have been. Hell, just tell me one thing we have learned on ISS that we didn't already know. "Bones decalcify in zero G"? This was new info worth $100 billion?

Re:Science coverage on /. is crappy

[YA_Python_dev]

I agree with a few of your points, but:

The dirty little secret about ISS is that at full mass and max solar array deployment upon completion, this thing is going to deorbit even faster from atmospheric drag than it is now and no way can Progress or Jules Verne is keep the completed assembly reboosted - only the Shuttle could.

WTF? An ATV can give to the ISS a bigger dV than the Shuttle, especially if you consider all the propellant for the boosters on the Zvezda module that an ATV can bring and the STS doesn't. But I agree that the downmass capability of the Shuttle (or something equivalent) would be useful even after 2010.

Nobody even knows anymore how much ISS costs anymore because of crooked accounting hiding the drawing of funds from everywhere within NASA, but nobody argues it's at least $100 billion dollars.

This is an often-cited figure, because it's a nice round number, but it's for the whole project from 1990 to 2017 and including all the activities on Earth. IMHO it's money well-spent for 27 of engineering and science (yes, I know, we are just getting started with science, give them the opportunity to demonstrated its value after the station is completed).

Re:

[cybrpnk2]

The Jules Verne used the remainder of its unused docking fuel to raise ISS less than 5 km, and that one time kick that cannot be counted on to be there every time. Docking fuel is supposed to be allocated to docking, not reboost, during mission planning. JV also transferred less than a ton of hydrazine and nitrogen tetroxide to Zevzda. THis is primarily intended for attitude control, not reboost. Even if it wasn't, final completed weight of ISS in 2010 is slated to be 460 tons, so fuel being transferre

Re:

[YA_Python_dev]

The Jules Verne used the remainder of its unused docking fuel to raise ISS less than 5 km, and that one time kick that cannot be counted on to be there every time.

It's not a "one time kick", it's simply the first of four scheduled re-boost manoeuvres (yes, all four of them will be performed by JV). And it was deliberately small to keep the ISS low enough to be easily reached by the orbiter with Kibo.

It's not "unused docking fuel", the ATV was designed to perform big reboosts for the ISS.

Re:Science coverage on /. is crappy

[Wanderer1]

Keep it up guys. This is the best debate I've seen in ages!

W

Re:Science coverage on /. is crappy

[cybrpnk2]

For reference, here's some pretty good Wiki articles on ISS [wikipedia.org] and JV [wikipedia.org].

The facts [sciencedaily.com]: "On this first ATV mission, Jules Verne will deliver 4.6 tonnes of payload to the ISS, including 1 150 kg of dry cargo, 856 kg of propellant for the Russian Zvezda module, 270 kg of drinking water and 21 kg of oxygen. On future ATV missions, the payload capacity will be increased to 7.4 tonnes.

About half of the payload onboard Jules Verne ATV is re-boost propellant, which will be used by its own propulsion system for periodic manoeuvres to increase the altitude of the ISS in order to compensate its natural decay caused by atmospheric drag."

Also [itwire.com]: On April 25, 2008, the European Space Agency announced that earlier in the day its first automated transfer vehicle (ATV), the "Jules Verne," increased the altitude of the International Space Station by about 2.8 miles (4.5 kilometers)--the first time an ESA craft had performed such an important task. The 12.3 minute maneuver was directed by ESA's ATV Control Center, which is located in Toulouse, France.

At 6:22 a.m. Central European Summer Time (CEST) (0422 GMT), controllers turned on two of the Jules Verne's four main engines. The two engines produced a thrust that increased the station's speed by about 8 feet per second (2.65 meters per second).

To achieve this re-boost in altitude, the ATV consumed 537 pounds (244 kilograms) of fuel. In all, the ATV carries about two metric tons (about 4,400 pounds) of propellant for re-boost activities.

After the burn was completed, the new altitude of the ISS became 212.5 miles (342 kilometers) above the Earth's surface.

The Space Station needs periodic boosts to raise its orbit because its orbit decays slowly over time due to a very small amount of atmospheric drag on the large structure as it orbits about the Earth.

In the past, the RSA Progress, the NASA Space Shuttle, or the ISS itself has performed such a maneuver. However, only RSA Progress and the ESA ATV are able to re-boost the space station to such a high level due to the amount of fuel onboard each vessel.

The Jules Verne ATV (ATV-001) will perform three additional re-boost maneuvers over the next few months: on June 12th, July 8th, and August 6th. Normally, the space station tries to keep at an orbital height of about 211 miles (340 kilometers) above the Earth's surface.

Later in August 2008, the Jules Verne, loaded with waste and unneeded materials from the space station, will be undocked from the ISS. The ATV has a capacity of carrying up to 6.3 metric tons (13,900 pounds) of unwanted material from the Station."

So what most people don't realize is that JV carries a LOT more (dense, low-volume) as mass as fuel for reboost than it does anything else in that cool pressurized comparment it has the astronauts go in. I understand that the JV maneuvers were held off to allow Shuttle attachment of KiBo at the lower and easy to reach altitude. But my point is that things are only going to get worse and will ultimately I think go beyond what JV is designed or funded to do to keep ISS up.

JV is an experiment in European autonomous docking technology, not an integrated reboost system. I have yet to see any plans for how many JVs will be flown in the long run - currently there are only 4 more in the pipeline thru 2015. The numbers above represent the data required to figure out just how many JVs will be required to keep ISS up for X number of years. I predict that when that calculation is finally run - and when NASA explains to ESA that there will be zero American funding to keep the JV production line running - that ESA will say, OK, we ain't payin no Euros to keep this junkheap up either, which side of Hawaii do you want us to splash the ISS in?

Re:

[FleaPlus]

Mostly-naive question: What are your thoughts on the reboost potential of the SpaceX Dragon (assuming they get it up and running)?

Also, what ever happened to the possibility of using solar-powered electrodynamic tethers to reboost the ISS?

Re:

[CptPicard]

The only thing worse than setting it up in its shuttle-payload-upmass-hostile 57 degree inclined orbit to allow Russian participation is totally cutting off Shuttle participation in 2010.

So you're saying that it should have been a US-only project, only flyable to by the Shuttle and that it's a waste of money? Sounds to me like such a project is better of handled in a co-operative fashion, sharing costs...

Re:

[cybrpnk2]

No, I'm saying that IF cooperating with the Russians had ORIGINALLY been a goal of the program, that ISS would have a COMPELTELY different design and location than what is up there now. People just see photos of floating astronauts on TV and say, oh, what a cool space station. The reality is quite different.

The NASA Freedom / Alpha space station program in the late 1980s and early 1990s was well on its way to complete cancellation due to horrendous cost overruns and total program mismanagement and in-fi

Re:Science coverage on /. is crappy

[iamlucky13]

The parent post is overrated. It's not entirely correct and it's not very coherent.

I worked on Space Station in the early 1990s and still haven't recovered from the bad taste that experience has left in my mouth.

That is before any of the hardware had been launched. But it's unsurprising that the OP could be dissatisfied with the experience. Aside from being a government program and all the cliches that entails, the ISS has gone through many redesigns, and the effort of cooperating internationally has been an added source of delay and cost. He's not alone in such criticisms and the ponderous nature of government programs is one of NASA's biggest problems.

ISS was DESIGNED for Shuttle resupply during its lifetime and that resupply was first strangled and then totally cut off. Soyuz and Orion taking astronauts to this thing is a joke, and doing resupply by Jules Verne is a criminal waste.

The shuttle is a much more expensive spacecraft to operate than the ATV. The shuttle's advantages are it's manned, it is a versatile work platform, and it can carry cargo back to earth. It's overkill for basic resupply. Although Jules Verne didn't because there was a large amount of pressurized cargo on board, the ATV can carry up to 4.7 tonnes of spare propellant...much more than either the shuttle or Progress. There may also be a commercial option available for re-supply and reboost in the next 3-4 years through the COTS program.

There is absolutely nothing wrong with Soyuz or Orion performing crew rotation. Both of these craft have lower operating costs than the shuttle, and lower projected loss of crew probability.

The dirty little secret about ISS is that at full mass and max solar array deployment upon completion, this thing is going to deorbit even faster from atmospheric drag than it is now and no way can Progress or Jules Verne is keep the completed assembly reboosted - only the Shuttle could.

Total BS. The international partners are well aware of how much reboost the ISS needs and are planning accordingly. There is no secret. Progress, ATV, or the shuttle alone can't do all of the reboost, but combined they can. Also, once construction is finished, the ISS will be boosted to a slightly higher orbit to reduce the effect of drag. Lastly, the ISS is at nearly maximum drag, with only one more solar array to be added, but still growing in mass. Added mass works out net neutral. The momentum reduces the effect of drag just as well as it reduces the effectiveness of reboosts.

And secretly if not in public, NASA will breathe a sigh of relief when it splashes.

This statement, at least, is based mostly in fact. ISS is somewhat contentious at NASA, but it has its supporters and detractors. There will be quite a few glad not to have to divert resources to it, and plenty others frustrated by the loss of a unique laboratory environment and work platform. I doubt hardly anyone there would argue that it's completely without value, but many feel the money would be better spent elsewhere.

Nobody even knows anymore how much ISS costs anymore because of crooked accounting hiding the drawing of funds from everywhere within NASA, but nobody argues it's at least $100 billion dollars.

The contention of crooked accounting is unsubstantiated. If there's crooked accounting it goes on at lower levels, but the OP has provided no evidence of it. NASA funds are accounted for at the higher levels in the annual budget allocations. The problem with accounting for exact costs is that ISS draws on programs that have their own independent budgets. How much of the cost of the shuttle return-to-flight program should count towards the ISS, for example? More on cost here. [wikipedia.org]

Hell, just tell me one thing we have learned on ISS th

Re:

[Falkkin]

If you want good coverage of space/astronomy news, I recommend the Bad Astronomy Blog:

http://www.badastronomy.com/bablog/ [badastronomy.com]

Speaking of which, Phil Plait (the "Bad Astronomer") is also no fan of the ISS. From his article on this same experiment:

"So some European scientists came up with the idea of using the International Space Station (I know! Using ISS for science! Wow!) to test this out."

Re:

[The Bad Astronomer]

Thanks for the link lurv. I did write up an extensive description of this [badastronomy.com] as best I could. It's a weird experiment!

Re:

[gregbot9000]

Why do they need to put it on the ISS any way? Isn't there another side to the planet that we could work on? Or is it just easier to go to space than try and do science in China?

Re:

[CowboyNealOption]

ISS is estimated to cost $158 billion by 2017 (according to wikipedia, the source of all knowledge; I assume the US isn't paying for all of it). Current cost of the war in Iraq is over $500 billion (US is paying for all of that). Each person can decide for himself/herself which is the bigger waste of money, but the chances of something positive coming from the ISS is considerably greater in my opinion.

Re:Science coverage on /. is crappy

[khallow]

I agree with the accusation that the ISS is a white elephant. Your claim of "hundreds" of experiments is padded by a considerable number of low value experiments such as archiving (in addition to the regular sampling if I read the list correctly) fluid and tissue samples from the crew of each expedition (there have been 17 returned expeditions so far, hence, 17 "experiments"). Let's put this in perspective. By the time the ISS has run through 2016, it'll have consumed around $150-160 billion between NASA and the other participants. This includes a decade or so of the Space Shuttle which we could have phased out in 2000 or earlier, if it wasn't for the ISS. Even after completion, it'll cost almost $2 billion dollars a year to maintain.

In comparison. including launch costs the MIR station cost a few billion and the first serious NASA proposal in the mid-80's was around $12 billion in today's dollars, including launches. If NASA had gone with a scaled down station, it would have been completed years ago and generating a similar quantity of useful science (over its lifetime) for a small fraction of the cost of the ISS. The high maintenance cost means that there's a good chance that it'll be cheaper to splash the ISS and launch a new station, than to leave the ISS up there. Finally, I think it's clear that the primary purpose of the ISS has always been to extend the lifespan of the Shuttle (and deliver public funds to NASA contractors) rather to do anything useful in space. In that, it has been remarkably successful.

I find it odd that ISS supporters have to resort to the numbers game and other vague arguments (like lauding the value of "international cooperation"). If you can't find 5 or so big reasons that justify the ISS, you're not going to make up the difference with thousands of mediocre ones. What justifies almost $2 billion a year in maintenance and the huge opportunity cost of putting almost a sixth of a trillion dollars into this project? As I see it, we could have done a hell of a lot more in space with that money.

Re:

[khallow]

3-4 months, last I checked. Quite a hunk of change if you ask me.

Re:

[Richard W.M. Jones]

literally hundreds of small, medium and big experiments

So simple division gives me a cost of about $1 billion per experiment give-or-take 50%. That's real value for money!

Rich.

Here's the list

[iamlucky13]

For all the naysayers of ISS science, here is the list of past and present experiments for your review:

ISS Experiments by Expedition [nasa.gov]

Please note the count of experiments currently stands at 561, and the focus ranges from virology, to fluid mechanics, to relativity, to astronomy, and even engineering validation (not simply of space station components, but also of fully independent technologies). That's nothing to sneeze at.

And while a fairly large portion of them are relatively minor or PR projects

Re:

[Anonymous Coward]

Because Fox News went to court and argued that they could knowingly distribute false information as news because the law doesn't explicitly forbid it. Let me repeat that: knowingly report falsehood as news.

Note that Fox did not deny they were falsifying the news story on BGH; they argued only that what they did was not covered by the "adopted rule" of the FCC. A purely technical legal argument to defend broadcasting information they intentionally distorted and knew was wrong.

And that is a new organization?

h [foxbghsuit.com]

Re:Science coverage on /. is crappy

[Artifakt]

Of course this will get moderated off topic (and should) but I can't resist.
1, Fox News actually went to court and won an advance judgment that said, even if it could be shown that the newscasters had deliberately lied about a concealed source being reasonably unbiased, and it was proved that the source actually worked for a political party and was paid to make the claims that it made, Fox would still be protected by the normal laws about concealing the identity of sources and this situation wouldn't constitute possible malice with respect to libel laws. Name another news agency that has even sought such a protection.
2. In 2002, there was a study of the media where the only thing that was examined was accuracy of attribution. That is, if a news source quoted a person and said that person was a lawyer in the state of New Jersey, the study checked to see if the person was really liscenced before the New Jersey Bar at the time. If they said a source was a Vice President at a fortune 500 company, the study checked to see two things - was that company really in the 500, and was the guy's title really VP and not Assistant VP or similar. NPR and BBC both scored in the 3.8 to 4 out of a possible 5 range. PRI, MSNBC and ABC ran somewhere near the middle. Where did Fox score? 2.2 - right next to Al-Jazera!

Re:

[thehater]

Do you have sources for either of those claims? I'm both skeptical and interested.

Re:

[Stooshie]

You must be on Hotblack Desiato's black spaceship [everything2.com] then.

Re:

[Stooshie]

boinked!?!

WTF???

LOL!!!

Slashdotted already?

[Thornburg]

Apparently the entangled photon link they were using to host the webpage couldn't hold up under the strain of Slashdot.

Re:Slashdotted already?

[andrewd18]

It was working fine until you tried to observe it.

Derision

[OpenSourced]

would give the much-derided ISS a stab at doing some decent science for a change

That won't necessarily help with the derision, as nobody denies the fact that interesting experiments are possible in space. The main point of contention will still be if you need to keep live persons there continuously to perform them. It'd have to be shown that a satellite or a simple orbiting mission couldn't have performed the same experiments for a fraction of the total costs.

Re:

[camperdave]

It'd have to be shown that a satellite or a simple orbiting mission couldn't have performed the same experiments for a fraction of the total costs.

Well, the real question would be how many experiments do we neeed to do aboard the ISS before it becomes cheaper than sending up mission after mission after mission.

Re:Derision

[YA_Python_dev]

You surely can save money on the purely scientific part of the ISS by removing the human presence. If you are fine with the possibility of humanity never leaving his cradle.

But the ISS is not only about science, it's also about engineering and learning how to live for long periods off the world (the MIR was pioneer, but its design and MO would be too dangerous to use beyond Earth's orbit). The next target will be the Moon and then probably Mars, but we had to learn how to walk before we can run.

Re:

[khallow]

I don't see it that way. By squandering money on a vastly inefficient toy rather than genuine space development, we've increased the chances that humanity never leaves the cradle. Here's the sort of questions that I think we should ask about any future large-scale NASA project:

1. Is there a coherent justification for the project? ISS fails here. Your post gives an example. We're burning over $150 billion dollars (through 2016) for somewhere around 100 man-years in space. Assuming it all works out. That's a b

Re:Derision

[Colonel Korn]

would give the much-derided ISS a stab at doing some decent science for a change

That won't necessarily help with the derision, as nobody denies the fact that interesting experiments are possible in space. The main point of contention will still be if you need to keep live persons there continuously to perform them. It'd have to be shown that a satellite or a simple orbiting mission couldn't have performed the same experiments for a fraction of the total costs.

The cost of the ISS program is already ridiculously small, and the #1 thing that gets people interested in space at a young age, and in a lasting way, is the idea of people going into space.

I think it's like a zoo. Maybe the animals inside are being held in some sort of unfair captivity (I tend to think that in modern zoos most animals are pretty satisfied, but let's not go into that), but the interest and money generated by those animals creates the world's largest resource for saving their wild relatives.

Even if the ISS is never used in a way that provides more direct scientific knowledge per euro than unmanned missions, I believe it's worth it in the long term.

Spooky

[mburns]

Remember that Niels Bohr denied that such a test of nonlocality was possible. Einstein had said that this phenomenon was "incredible" in his "EPR" article, thus rejecting his own prediction. And Bohr replied in effect that such things were taboo metaphysics.

Re:

[orangesquid]

I am not a physicist, but it seems to me that this experiment could raise some interesting possibilities, multiple ones of which could be simultaneously true. (1) Quantization is much more complex than thought, occurs on multiple levels, relies on several decoherence phenomena, and Schroedinger's equation is a special case of something else. (2) Special relativity is quantized and has its own decoherence, and is also a special case of some larger system. (3) Quantum statistics do rely on hidden variables

Still a naysayer

[DaveInAustin]

This will be really neat, but do we need to have people on the space station to do this experiment? It's not like someone going to be observing the photons with his or her eye and agreeing or disagreeing with the an observer on the ground?

Robust enough?

[Thelasko]

As I understand it, a quantum entangled photon is very fragile. I don't understand how or why it's fragile, but wouldn't that make this extraordinarily difficult to do? The trip to the ISS is pretty bumpy.

Re:

[SBacks]

Its pretty bumpy for a giant spacecraft pushing itself through the atmosphere. It shouldn't be as bumpy for a single photon.

Plus, I assume they'll be using hundreds or thousands of photons over the coarse of the experiment, even if 90%+ are affected on the trip there, it will leave plenty of data points undamaged.

Re:

[Thuktun]

Plus, I assume they'll be using hundreds or thousands of photons over the coarse of the experiment

An experiment involving entangled photons is hardly likely to be coarse.

Re:

[canavan]

They aren't going to ship the photons in a Sojuz or the Shuttle (in a highly reflective box?), instead they'll probably be using a laser or similar device to send the entagled photon directly to the ISS. The ride is still bumpy with the atmosphere between the sender and receiver, but it's probably manageable, as demonstarated in this experiment, sending photons over 144km [quantum.at]. They explicitly mention that this proves the feasibility of the ground to ISS experiment.

Re:

[Thelasko]

that deserves mod up right there.

In order to get to the bottom of this....

[SGDarkKnight]

they will need to enlist the help of Roger Wilco.

Re:

[Stooshie]

they will need to enlist the help of Roger Wilco

Actually, I'd prefer it if it was Seargant Bilco

Why not go further?

[moosesocks]

Why not put the experiment on a probe traveling further and further away from earth?

Or perhaps on the moon.

Or mars.

This is actually a fairly exciting bit of science.

Re:

[jellomizer]

Because we already have people on the ISS, who can perform it. Making a probe to do the test will be expensive. Vs. Having someone up there and send up some stuff on the next trip up. Yes it is still expensive, but we are paying for it anyways vs paying for something new whith a higher chance of failure.

Re:

[marcosdumay]

Because we only need to send it far enough to know that light couldn't go from one end to the other during the tiny inaccuracy of our clocks.

Noooo!

[FireIron]

Please don't break reality. It's where I keep my stuff.

Re:

[FurtiveGlancer]

Or so you thought, until.... This quantum observer issue gives a whole new meaning to "keep an eye on your stuff," doesn't it?

Re:

[treeves]

It may be that if you keep your stuff in La-La-Land, you'll be much happier.

Ignorance

[QuietLagoon]

"ISS ... doing some decent science for a change"

Of what you do not know, you should not speak.

Then you need a better naysayer...

[pla]

By the peculiarities of special relativity, the high relative velocity between the observers means that both will always be able to claim to have carried out their measurement first, thereby ruling out the naysayers' arguments

Of course, by that same logic, naysayers can always claim that each side carried out its measurement last, negating whatever benefit this "feature" supposedly proves.

Re:

[FurtiveGlancer]

Absolutely not! ~

Naysayers?

[nine-times]

By the peculiarities of special relativity, the high relative velocity between the observers means that both will always be able to claim to have carried out their measurement first, thereby ruling out the naysayers' arguments.

What naysayers? Naysayers of what? And what are their arguments?

Re:

[marcosdumay]

You know, that people that keep repeating that this year isn't the year of Linux on the desktop.

einstein

[Brian Gordon]

He famously hated the idea of spooky action at a distance, and never accepted QM. He certainly didn't advocate it.

Forget SpaceQuest on the ISS

[j00r0m4nc3r]

I can't wait until they perform the Leather Goddesses experiment on Phobos.

Re:How do you entangle a photon in the first place

[Daimanta]

Scientist used Entangle!

It's super effective!

Photon capture device go!

You entangled a photon!

It was added to your photondex.

Re:

[camperdave]

You entangle 2 photons, f.e. by creating them at the same time from the same decay-process.

Ah! It comes from the subtle glow of rotting meat, then.

Re:

[imstanny]

Just wondering if you could put one of the quantum photons in an optical switch, and perhaps use the the reading of the other photon to flip a bit. That might actually be useful. If this were viable, NASA could have something better than radio for their next generation of probes. Now if they're only watching the thing bounce around randomly on its own, and it happens to be in synch with its paired photon - I'm not sure how useful that could be.

Now, can someone untangle the that for me?

Re:

[SBacks]

He's suggesting using entanglement to communicate faster than light. I think he's forgetting that once your manipulate the photon, it will no longer be in sync with its pair.

Re:

[Stooshie]

But I think the second part suggests that if you let your photon bounce around randomly, you may be able to know when it's in sync with it's pair thus knowing the phase of the paired photon.

At the other end, once the fixed photon is in phase it moves to the next "bit" in the message and waits for the pair to be in phase again before "transmitting" the next "bit".

Presumably this all takes place in something approaching nanoseconds.

Re:

[YA_Python_dev]

Now if they're only watching the thing bounce around randomly on its own, and it happens to be in synch with its paired photon - I'm not sure how useful that could be.

Not very useful for what you have in mind: even with funny quantum mechanics tricks you still can't transmit information faster than light.

Re:Could it be useful?

[locofungus]

I'm not sure what you are trying to suggest, but you can't use entangled photons to communicate faster than light.

I've not RTFA - it's down - but basically the EPR effect allows someone to create two photons and then measure if their polarization is H or V. The result is completely random BUT, both photons will always give the same result.

Now Alice measures her photon first and lets say we get H, then Bob's photon must instantaneously turn into H (previously it was a mixture of H and V - the dead and alive cat) so that when he measures his photon he also gets H.

What's already been done is to ensure that Alice and Bob decide what measurement to do, and make the measurement, so close to the same time that it's impossible for there to be any way for Bob's equipment or photon to "know" what Alice is going to do (or vice-versa) except at superluminal velocities.

But because Alice and Bob are in the same inertial frame there's still, at least in theory, a concept of who did the measurement first and who did it second. (Alice and Bob can have synchronized clocks and record the time they did the experiment. Then they can, using normal communication, tell each other what time they did the experiment and they'll both agree who was first and who was second.)

What this experiment will do is mean that Alice and Bob won't agree about who was first and who was second. Alice and Bob's clocks cannot remain synchronized, so that according to Alice, and people sitting next to her, she did the measurement first, but according to Bob, and people sitting next to him, he did the experiment first. And BOTH will be correct because the two measurements are space like rather than time like.

Tim.

Re:Could it be useful?

[locofungus]

What's already been done is to ensure that Alice and Bob decide what measurement to do, and make the measurement, so close to the same time that it's impossible for there to be any way for Bob's equipment or photon to "know" what Alice is going to do (or vice-versa) except at superluminal velocities.

Just to clarify this paragraph because I've realized it's confusing.

Alice and Bob both randomly decide to measure the H/V polarization or the +/- (45 degree) polarization.

Then they get together and compare results. Where one has measured H/V and the other +/- then they throw the results away because they don't tell them anything useful, but where they've made the same measurement they find they always get the same (or opposite) results.

It's when they make the measurement that neither they, nor their equipment or photon can "know" what the other is doing.

There's also something called Bell's inequality that basically proves that the results of all of Alice and Bob's possible cannot be "known" by the photon ahead of time. (no local hidden variables).

Tim.

Re:

[SBacks]

I've never quite understood why this conflicts with GR. It seems like from Alice's perspective, when they both make their measurements, Bob is the superposition of having the same result or the opposite result. It is only after they communicate (restricted by the speed of light) that his results can be compared with hers and his superposition collapses. In other words, there are two measurements done by Alice, one of her photon, one of Bob, and they don't require any faster-than-light communication.

Am I mis

Re:

[BlueParrot]

I've never quite understood why this conflicts with GR

It doesn't (there are other points where GR and QM conflict, but entanglement is not one of them ). Einstein thought it did because he assumed that any such interaction would be deterministic and could hence be used for communication (THAT would break GR ). Essentially Einstein never liked the idea that the universe was based on randomness, hence the famous "god does not throw dice with the universe" quote. As a consequence he repeatedly tried to disprov

Re:Could it be useful?

[Remus Shepherd]

And there's the rub, and the reason why people are still trying to prove QM after a hundred years. The equations appear to indicate that one of the following MUST BE FALSE:

1. Quantum Mechanics.
2. Locality.
3. Realism.

All the experiments performed so far strongly support QM, so we can't dismiss that. If locality is false then we have Einstein's spooky action at a distance and a conflict with GR. If realism is false...then nobody knows where the hell we are, or what we are.

But one of them *has* to be wrong. All these experiments are trying to prove is which one.

Re:

[evilviper]

Essentially Einstein never liked the idea that the universe was based on randomness, hence the famous "god does not throw dice with the universe" quote. As a consequence he repeatedly tried to disprove quantum mechanics by inventing scenarios in which the random nature of QM would conflict with GR. The surprising, and somewhat ironic, outcome of his attempts was however new insights into quantum mechanical interactions that just seem to confirm the random nature of QM.

This Disney-esque version of history is

Re:Could it be useful?

[TexVex]

Classical physics tells us that if you know the angle of polarization of a photon, then its chance of passing through a polarizer is the square of the cosine of the difference in angles between the photon and the polarizer. If you have a 45 degree photon, it will always pass a 45 degree polarizer, have a 50% chance of passing a 90 degree polarizer, and will never pass a 135 degree polarizer.

QM tells us that when you have two entangled photons and measure both of their polarizations, the chance the results will correlate is the square of the cosine of the difference in angles between the two polarizers . If you measure them at the same angle, the results always correlate. If you measure them at 45 degrees apart, the measurements correlate 50% of the time. If you measure them 90 degrees apart, the measurements never correlate (the results are always opposite). No matter how you look at it, this means either the results are predetermined at the time the photons are created based on the angles the polarizers will be at the time the measurements are taken, or that one measurement somehow influences the other later so the past isn't immutable.

Either way you look at it, it means the universe doesn't work the way we expect it to. If you're a glass-half-full person you want to believe in FTL and time travel, and if you're a glass-half-empty person then you think maybe the universe is deterministic.

That's why this stuff gets everyone who understands its implications all in a tizzy.

Re:

[locofungus]

Realise I've not really answered this.

Bob can't be in a superposition of the two results because Alice's measurement has already determined what result he must have got. If Alice sends a polarized photon (that she's created and knows the polarization) to Bob then she knows what result Bob will get if he measures the same polarization even if Bob doesn't know what measurement to make and just makes a random guess.

The speed of light prohibits Alice from knowing whether Bob actually bothered to do the experime

Re:

[0xABADC0DA]

QM conflicts with GR in the same way that for example scan-converting a line segment produces a solid line when you step back, but produces "ladders" and "jaggies" at a pixel scale. You can generalize about formulas for lines, but that is not going to explain the value of a particular pixel.

But more to the point, entanglement is like a pointer. If you have "p = q = &val" and send p to the space station and q on earth and measure *p and *q there are no superposition of states or multiple universes or f

Re:

[tzanger]

How on earth do you transport these photons to two separate locations without their container affecting them?

Re:

[locofungus]

You let them go there on their own. Photons have this innate ability to go places at the speed of light without having to put them in a box and carry them there.

Yes, there is a problem with them interacting with the environment and decohering but that's an engineering problem rather than a physics problem. Provided you're not sending them too far then most will get through without issue.

In any formal experiment you have to allow for the probability of decohering - and so you don't expect 100% correlation. T

Re:

[locofungus]

Even without any knowledge of quantum mechanics, I could have told them they'd always get the same or opposite results.

Ha Ha!

What I was trying to say was:

(dropping factors of sqrt 2)
|H> = |+> + |->
|V> = |+> - |->

|HH> + |VV> = |++> + |-->, so Alice and Bob get the same result if they measure H/V or +/-
|HH> - |VV> = |+-> + |-+>, so Alice and Bob get the same result if they measure H/V but opposite results if they measure +/-.

etc.

Tim.

Re:

[locofungus]

That might allow communication.

Never!

Faster than light communication violates causality - A causes B but B happens before A. It's just absurd.

If you think you've found a way around the speed of light limit then there's something you don't understand yet.

Tim.

Re:

[camperdave]

Now Alice measures her photon first and lets say we get H, then Bob's photon must instantaneously turn into H (previously it was a mixture of H and V - the dead and alive cat) so that when he measures his photon he also gets H.

What's already been done is to ensure that Alice and Bob decide what measurement to do, and make the measurement, so close to the same time that it's impossible for there to be any way for Bob's equipment or photon to "know" what Alice is going to do (or vice-versa) except at superlu

Re:Could it be useful?

[brunascle]

they actually are both H and V polarized at the same time. you can think of them as just being "unknown" for the sake understanding why you cant use it to communicate faster than light, but it isnt what's actually going on.

we know this because in a quantum superposition, different possibilities in the superposition can interfere with other possibilities, making certain results more or less likely. this is shown by the double-slit experiment [wikipedia.org]. shooting photons at a screen through two slits produced not two stripes like you'd expect, but several stripes. this is because each photon went through 2 waves of possibilities, one through each slit, and the waves then collided with each other, making certain ares of the screen more likely to be hit than others.

Re:

[naasking]

That is, unless I'm missing something fundamental.

Your description of entanglement is known as a "hidden variable theory" of QM, and exactly what this experiment is trying to refute once and for all. QM really imply that the cat is both alive and dead.

Re:Could it be useful?

[locofungus]

That is, unless I'm missing something fundamental.

Yes, you're missing something fundamental.

Going back to one photon.

We'll have four polarization states H, V (the normal horizontal and vertical polarization) and +, - the 45 degree polarizations.

Now Alice produces a stream of H photons and sends them to Bob. Now if Bob measures to see if they're H/V then he will always get H.

But if Bob measures if they're +/- he'll get 50/50 + and -, with each individual photon being + or - at random.

After measuring +/-, if Bob then remeasures H/V he'll again get 50/50 H and V. The measuring of +/- destroys the knowledge about H/V

If Bob measures at an angle other than 45 degrees then he'll get different proportions but he'll get sin^2 theta with one polarization and cos^2 theta with the other polarization.

Now lets consider entangled photons that will always give the same result for Alice and Bob. Initially we'll assume that Alice will always measure the horizontal polarization (0 degrees) Now lets consider that the photon "knows in advance" whether it will go through a horizontal polarizer i.e. it has (an infinite number) of hidden variables. Regardless of what measurement Bob does, an ensemble of photons can distribute values amongst these hidden variables so that Bob gets the expected correlations relative to Alice and the angle of his measurement.

But now let Alice vary her angle as well. Now the correlation depends on the difference in angle between Alice and Bob. But that angle isn't known (and hasn't even been decided) at the point the photon has been created. It could have a big "look up table" saying "If Alice angle is n and Bob angle is m then do/don't go through Alice's filter and do/don't go through Bob's filter BUT the photon that arrives at Bob's detector has to know what measurement Alice will/has done and the photon that arrives at Alice's detector has to know what measurement Bob will/has done.

But because Alice and Bob independently randomly decide what angle to measure "long" after the photon was created and their independent decisions are made so close together in time that neither can know what the other has/will do when they make their measurement due to the speed of light limit then there is no way for the photon to use its "lookup table" and get the correct statistical results.

It doesn't matter how you construct that "lookup table", unless you allow some sort of faster than light communication, using the lookup table will give different results to QM.

If you want the formal maths for that bit of hand waving then lookup Bell's inequality. He actually deduced the inequality that could be tested to prove no local hidden variable theorem was consistent with the results of QM based on measuring particle spins while most of the tests that have been done have used polarization of photons but the underlying theory is the same.

These experiments have already been done, and Bell's inequality has come down on the side of QM. Because Alice and Bob make their measurements so close together in time, not all observers will agree which one is first but (perhaps unfortunately) Alice and Bob will agree who was first and who was second. What this experiment does is close even that loophole - even Alice and Bob will be unable to agree who made the first measurement and who made the second.

Tim

Re:

[Lijemo]

We'll have four polarization states H, V (the normal horizontal and vertical polarization) and +, - the 45 degree polarizations. Now Alice produces a stream of H photons and sends them to Bob. Now if Bob measures to see if they're H/V then he will always get H. But if Bob measures if they're +/- he'll get 50/50 + and -, with each individual photon being + or - at random. After measuring +/-, if Bob then remeasures H/V he'll again get 50/50 H and V. The measuring of +/- destroys the knowledge about H/V

What I found fascinating was seeing this demonstrated to the naked eye using polarized lenses.

When two polarized lenses are placed next to each other at 90 degree angles, no light gets through, because all wavelengths are being blocked.

However, putting a third polarized lens between them at 45 degrees to both makes the group transparent again-- like looking through shaded glass, some of the light was blocked, but not all.

Completely counter-intuitive. I'd have had a hard time believing it without play

Re:

[locofungus]

No.

They can't communicate using this.

Alice can't tell if Bob modulates his angle. Alice and Bob can't even agree who made the measurement first which makes it kind of hard to imagine how they can use it to communicate.

Alice measures her photon and gets one of two results completely at random.
Bob measures his photon and gets one of two results completely at random.

When they get together they discover that, although their individual result were random, their combined results display a correlation related to t

Re:

[camperdave]

When they get together they discover that, although their individual result were random, their combined results display a correlation related to the relative angle of the polarizations they measured.

Of course. The entangled photons are images of each other. If I measure one, the other is going to have a related value. So it doesn't matter who measures what first, or if one measures and the other doesn't. Once one is known, the other is known.

Re:

[Artifakt]

The observer in the Schrodinger's Cat 'paradox' is the first particle to come in contact with the cat (typically a photon). If you define the entangled quantum state as the cat plus the apparatus then it's typically an Infrared photon passing through the air inside the box, and if you define the entangled state as the whole box, then it's typically a photon in the room. The 'observer' could be an electron orbiting one atom in the table top supporting the box, or various other possibilities. That's what QM m

what's a measurement.

[oliverthered]

Could you please explain what a measurement is, since clearly interaction with something isn't enough or it would be measured by the air.

Re:

[locofungus]

Could you please explain what a measurement is, since clearly interaction with something isn't enough or it would be measured by the air.

I'd like to help you with your question but I've got to pop over to Stockholm to collect my Nobel prize.

Seriously, nobody really knows what a measurement is. That's the whole point of Schroedinger's Cat.

Here's a real experiment:


Well there was a nice ascii art diagram but I can't get it through the lameness filter.
Filter error: Please use fewer 'junk' characters.

Basically H

Re:

[locofungus]

Cats are not both alive and dead.

Exactly. But QM says they are.

H polarized photon = Cat dead. V polarized photon = Cat alive. 45 degree polarized photon = Cat dead, 135 degree polarized photon = Cat alive.

Until Alice and Bob make their measurements we really do find that the cat is both dead and alive.

But what does "measurement" mean? If we really were using dead/alive cats to do this experiment (currently we lack the ability to keep something the size of a cat in a superposition of states) then presumably

Re:

[LordKaT]

I hope there's at least one incompetent janitor involved to save the universe when these photons morph into door to door insurance salesmen.

Or, at the very least, they remembered to take jockstrap from locker.

Re:

[Stooshie]

I prefer mild mannered janitors that save the world. ;-)

(Get that reference and I can probably age you to within 5 years).

Re: Chicken and Egg

[FurtiveGlancer]

The chicken clearly and undisputably came first... in the dictionary.

Re:

[morgan_greywolf]

First was egg.
It was produced by chicken's ancestor.

Nope. First was chicken. It was intelligently designed 6000 years ago to lay eggs.

Re:

[gnick]

First was egg.
It was produced by chicken's ancestor.

Actually, "Which came first, the chicken or the egg?" is a trick question. The rooster's ancestor came first, thus enabling the chicken's ancestor to produce the first chicken egg. Otherwise, the egg would have been barren and appropriate for frying and application to toast.

Of course, other eggs had been around for a while...

Re:

[naasking]

thus enabling the chicken's ancestor to produce the first chicken egg

The chicken's progenitor did not produce a 'chicken egg', by any meaningful definition of 'chicken egg'. [blogspot.com] So the chicken came first!

Re:

[naasking]

First was egg.

Bzzt, wrong. [blogspot.com]

Re:

[truthsearch]

Roger Wilco!