Scientists Achieve Direct Counterfactual Quantum Communication For The First Time

schwit1 shares an article from ScienceAlert: Quantum communication is a strange beast, but one of the weirdest proposed forms of it is called counterfactual communication -- a type of quantum communication where no particles travel between two recipients. Theoretical physicists have long proposed that such a form of communication would be possible, but now, for the first time, researchers have been able to experimentally achieve it -- transferring a black and white bitmap image from one location to another without sending any physical particles... It works based on the fact that, in the quantum world, all light particles can be fully described by wave functions, rather than as particles. So by embedding messages in light the researchers were able to transmit this message without ever directly sending a particle.
It's different than quantum entanglement (which Einstein described as "spooky action at a distance.") The article describes it as "a pretty cool demonstration of just how bizarre and unexplored the quantum world is."

counterfactual communication

[fustakrakich]

Oh please! We've been doing that since the invention of marriage, no wait, I mean politics...

Re:counterfactual communication

Alternate headline: Republican party decides that scientists are finally good for something.

Re:counterfactual communication

+5, Troll/Insightful/Inciteful here we come!

Does that mean that I can finally...

... get a perfect restaurant meal teleported to my home after ordering it online?

Re:Does that mean that I can finally...

[ColdWetDog]

Only if you don't open it.

Re:Does that mean that I can finally...

[syntotic]

That s deep.

So...

[fyngyrz]

How is this different than radio?

If I'm 11000 miles from someone's radio transmitter, waves of magnetism induce electron movement in my local loop antenna (this description applies only to loop antennas.) The only particles -- electrons -- I'm dealing with are local. The particle movement is not induced by electrons that travelled from the source to my antenna. Magnetism isn't carried by particles. Right? Because it goes right through non-ferrous solid objects.

Light is just radio at a really high frequency, as far I understand it. Which may not be all that far. :)

Anyway, shine a light, induce particle movement at the receiver by detecting the waves...

Sounds like radio. What am I missing? There must be something, or this wouldn't be news.

--[not a physicist]

Re:So...

I am pretty sure the summary left out the most important bit, which would make it all make sense.

When I read it, I thought "movie theaters have been using light waves to transmit images for quite a long time now..."

Re:So...

"How is this different than radio?"
Signal strength. If implemented in the real world it would be harder to jam or disrupt. We already have used tight beam laser communications but they are line of sight and susceptible to interference by any particles between the source and target. It seems this new attempt at something else would provide better performance without the line of sight or environmental obstructions getting in the way. If any of this type of technology becomes practical look for it to show up in the military technology basket. This new technology also opens the door for advancements in encryption making interception and deciphering the content much more difficult if not impossible at this time.

Re:So...

[NFN_NLN]

> I am pretty sure the summary left out the most important bit, which would make it all make sense.

Are we still waiting for that bit... or did my ADHD kick in mid sentence?

Re:So...

My understanding from the summary was that the relevant bit was the idea of the waveform, and that is somewhat what the article suggests. It's going to take me a couple more readings though... at least.

Re:So...

[michelcolman]

Radio waves are photons too. Light is just photons that happen to have the right frequency for our eyes to pick up. Whenever electrons are changing magnetic fields that act on other electrons, deep down at the quantum mechanical level it turns out to actually be an interchange of photons.

In this latest experiment, no photons or any other kind of particles were exchanged between emitter and receiver. So it really is quite different.

Re:So...

[AvitarX]

Doesn't the radio antenna receive photons as particles though?

I know camera sensors do (thus the noise in low light, not enough photons to override the randomness).

Re: So...

This is based on https://en.m.wikipedia.org/wiki/Quantum_Zeno_effect

For someone familiar with computing, you can think of it as a covert channel over a particle entanglement.

Contrary to regular communication channels, there is no contiguous particle movement (e.g: photons for light) from source to destination (for sound, it would be multiple particles transmitting the wave, but there is a contiguous movement).

Re:So...

[traveller9]

Exactly ! ..."So by embedding messages in light the researchers were able to transmit this message without ever directly sending a particle." Reminds me of ... A sentinel in a lighthouse with a oil lamp; 'One if by land, two if by sea'. (You old guys add '...and 76 if by electric jet.') That message was sent via light and no particles were harmed in the making of that event. Interesting science ... however ... humanity has used light for signaling since the beginning of our time.

Re:So...

[Fly+Swatter]

What am I missing? There must be something, or this wouldn't be news.

That something you are missing is their new found grant money. Redefine light as non-particles, profit! This is how quantum theory works.

Re:So...

[mikael]

The waves of magnetism are actually photons, which are considered massless particles.

Re:So...

[qeveren]

You've...entirely misunderstood what they've done. XD

Re: So...

But you are missing the point, photons are both waves and particles. At the quantum level and using quantum models, you can treat them as waves, waves that we can embed signals into. There are 5 dimensions for any wave. Amplitude, frequency, location ( just treat location as a point in space and time), direction and orientation (polarization/rotation).

Using the theory outlined in TFA we can treat the signal as simply waves, no particles involved. By measuring/affecting orientation we can embed signals in the wave itself, without affecting amplitude frequency etc.

At least that is how I read it.

Admittedly like many though I kept saying, but photons are particles AND waves. This article seems to say we can limit the behaviour and measure changes, none of which I fully understood.

Re:So...

[vtcodger]

Sounds like radio. What am I missing?

It sounds like maybe they didn't actually send an electromagnetic wave. They just set up a device that could send such a wave then didn't turn it on and used quantum magic to determine what would have happened if they had turned it on.

Or maybe they did something else entirely.

In case it's not obvious, I'm not a physicist either.

Re:So...

No. Radio waves are transmitted as photons, just as light is. Receiving radio waves involves an exchange of photons, just as receiving light does. Don't take my word for it, though, listen to physicists.

Counterfactual communication involves no particles being exchanged. Yes, really.

Re:So...

[Baloroth]

In this latest experiment, no photons or any other kind of particles were exchanged between emitter and receiver. So it really is quite different.

That's not actually quite true. Photons are sent (and in fact photon counters are used to detect the signal). However, the information itself isn't encoded in the photons, it's encoded in the phase of the photons. The abstract uses the comparison to holography: in normal photography, only the amplitude of the light is relevant. In holography, the phase of a laser is used to encode information as well (specifically, the 3D depth of the target) in addition to the amplitude. This technique encodes all of the information into the phase alone, and none of it stays in the amplitude.

TFA is, to put in bluntly, wrong. It claims

It works based on the fact that, in the quantum world, all light particles can be fully described by wave functions, rather than as particles. So by embedding messages in light the researchers were able to transmit this message without ever directly sending a particle.

But light is photons, and photons are light. You can't encode information in light without sending photons: it's like saying you talk to someone over the phone using words, but without using sound. It's just absurd. Of course, you can communicate over the phone using sound without using words, which is roughly analogous to what the scientists actually did.

Re: So...

[VikingNation]

Very good point about the wave/partical duality.

Re:So...

My understanding from the summary was there was an ancient greek guy firing arrows to the music of a jangly old-time piano. I lost interest after that.

Re:So...

[NicknameUnavailable]

How is this different than radio?

It isn't. The author is pretending photons aren't particles to get away with saying "no particles" travel between the points of communication.

Re: So...

Radio has had both amplitude modulation (better known as AM) for a long time, as well as Phase Modulation.

So, what's new that's up, doc?

Re:So...

[lindseyp]

Photons are only particles when they interact with something. Here, they're using interaction-free measurement, communicating by modulating the phase of the wave function in a way that's detectable without collapsing it, and thus no energy transfer or 'particle'.

Re: So...

[piotroxp]

Hey. They are using lasers to repeatedly probe the system thus achieving a metastable state that they can then phase together. I wrote a Quora about it a long Time ago. Phase matching *is* entanglement and this article is So much filled with bullshit that I cant integrate over it. They Show You Patterns, And Call it Dark Matter, They show you Patterns, and call it Time Crystals They Show you Patterns, and Call it Quantum Holography They Show you Patterns, and call it Direct Counterfactual Zeno Bullshit, because that is a Pump Probed Experiment The People who See the light for the first time really need to stop fooling themselves

Re: So...

[piotroxp]

Thank you for this answer, stranger You make the World a better place

Re:So...

[slew]

You are misunderstanding quantum counterfactual communications.

Quantum counterfactual communications uses the principle of interaction-free measurement. Although the information was phase encoded in photons, the information is transmitted in photons that are not actually sent to the receiver. Strangely (and this is hard to understand) photons are sent with some probability to the receiver, so it's possible that the receiver receives some photons, but those photons actually sent don't actually encode the information, but the information is conveyed by the photons that don't actually get sent. That way any photons that incidentally get sent can be "observed" without consequence of wave function collapse of the information.

This is similar effect to the quantum bomb detector thought experiment.

One interesting multi-verse interpretation of the multi-path bomb detectors is that in the universes where the photon took the path where the bomb went off aren't our universe, so we get to experience the consequence of the photon taking the other path. Similarly in this quantum counterfactual communication, we get to experience the consequences of the photons that were not transmitted.

Re: So...

When do you get to the sharks?

Re: So...

[michelcolman]

Photons are simply particles. However, just like any other particle, they travel as waves. Whenever a photon (or any other kind of particle) is emitted, it travels through space as a wave function until it is measured somewhere (or some other event causes the wave function to collapse). Then, the particle will be detected or not, depending on the probability given by the wave function at that point in spacetime.

So saying that no particles are involved, only waves, does not make much sense. Waves are not something different from particles, they are part of what they are.

Re:So...

[doug141]

This does not jive with the explanation of the quantum bomb detector. Your whole communication apparatus would need to be in a sensitive interferometer, built so that certain photons only have two possible paths. The entire counterfactual finding relies on the premise that if a photon lands on a certain detector (D), both the following are true: it could have been received at another "B", and was not.

Re:So...

[doug141]

Yes, and every single detected photon in the universe is a counterfactual to all the other paths the photon could have taken. Normally, these paths are numerous and unknowable, but if you build a machine just right, you can restrict the paths so much that there are just a few, and witnessing one path can eliminate some others as possibilities, and also prove the existence of a separate but coherent path.

Re:So...

jive != jibe

Just trying to help you out...Carry on...

Re:So...

Give the dude a break, he's obviously a republican trump voter.

They are tools, but they're just not the sharpest ones in the junk drawer.

Re:So...

[NicknameUnavailable]

The point being: it doesn't do anything. It's a neat curiosity, but it is still restricted to the speed of light, don't add to security, uses more energy (you still have to have photons pumping both sides) and uses a more cumbersome form of hardware meaning higher costs to utilize it. It's really more an interesting experiment showing you can in fact read a system without disturbing it than it is any remotely useful form of communication (though even that is suspect, since chances are there is some disturbance which happens to be too low to measure as most of the "quantum" effects are just "stupid things that happen when we hit the limits of our sensors" and not magic.)

Re:So...

[t14m4t]

The problem is that what a quantum physicist refers to as a "wave function" does not directly relate to the EM waves themselves. What's being referred to is that the specific properties of a particle (location, momentum, time, etc) is not deterministic, but rather probabilistic. And when you plot this function, the result looks remarkably "wave-like" in that the probabilities are not continuous, but rather they have highs and lows, or peaks and troughs.

https://en.wikipedia.org/wiki/...

Enter Heisenburg and his "uncertainty principle." it holds true that you cannot know all properties of a particle until you measure them, but until you measure them ALL possible states are not only possible... but in fact the particle is *actually* in all possible states at the same time. It's only when you measure it, does the particle "choose" where it wants to be. This is called "collapsing" the wave function - of all the possibilities that it can be / is, it suddenly resolves to only one of those possibilities.

So to answer the question: it has nothing whatsoever to do with radio.

Where things get even more interesting, is that two particles can have a causal relationship in their states - that is, while they might both have wave functions, when once of the pair resolves where it is, the other of the pair resolves itself as well to match it... even though no communication occurs between them. the second particle might never have been measured, and yet it's wave function still collapses when you measure the first particle. This is known as "quantum entanglement," or what Einstein famously referred to as "spooky action at a distance" because it happens faster then "c".

https://en.wikipedia.org/wiki/...

I haven't read TFA, but I have to believe they're somehow making use of this phenomenon.

weylin

And... I am not a physicist, but my college roommate now holds a PhD in the field, my dad was an astronomer, and I'm a devoted viewer of PBS's "spacetime" youtube series. So I'm a "lay" physicist.
https://www.youtube.com/channe...

Re:So...

[slew]

Yes, and every single detected photon in the universe is a counterfactual to all the other paths the photon could have taken. Normally, these paths are numerous and unknowable, but if you build a machine just right, you can restrict the paths so much that there are just a few, and witnessing one path can eliminate some others as possibilities, and also prove the existence of a separate but coherent path.

Although restricting the paths is one way to do this (with the quantum bomb detector), I believe the proposed quantum counterfactual communicaton technique actually uses the Quantum Zeno Effect. Instead of restricting the paths of a photon, the Quantum Zeno effect restricts the time-evolution of the photon temporarily preventing quantum decoherence.

Basically a watched pot never boils on (quantum) steroids.

This Quantum Zeno effect has also been proposed as the mechanism for long spin coherence lifetimes of radical-ion pairs that birds likely use for Magnetoreception

Re: So...

[syntotic]

It will still be limited by c. Seems like the title makes think of faster-than-light along with teleportation. The association may be intentional or very deeply unconscious.

No FTL from this

[JoshuaZ]

Note that this does not allow for any form of FTL signaling. The No Communication Theorem https://en.wikipedia.org/wiki/No-communication_theorem is not violated.

Re:No FTL from this

[skids]

It's a reasonable cautinary comment to make, obviously based on the observation that some people may assume that FTL limitations are based on the limitations of particle transmission, and lacking any particle transmission, those limits might not come into play. Because not everyone reading this site have taken courses in physics.

Re: No FTL from this

[corwinsr]

But can't the wave function be described as a subsystem of the total state? If so wouldn't that specifically violate or disprove the NCT?

Re: No FTL from this

[MemeRot]

Maybe he is. Maybe he isn't. We won't know unless we measure

Re:No FTL from this

[K.+S.+Kyosuke]

What if limitations of particle transmission are actually based on the limitations of information transmission? Knowing what we know about physics these days, that's actually the assumption I'd make.

Re:No FTL from this

[Rockoon]

Its Information Theory all the way down.

All hail Shannon.

Re:No FTL from this

[lgw]

All hail Turing, you mean. But the government wasn't going to publish the stuff kept secret during the war under the name of some embarrassing gay guy, even if it was his work, so Shannon gets the glory. Or so I've heard.

Re:No FTL from this

Its Causality that is the limit.

Re:No FTL from this

Shannon gets the glory and Turing gets the glory hole. Both are happy. /ducks

Re:No FTL from this

That is reasonable but you do realize that IF there exist a way for FTL signaling then that might be the communication channel of all technologically advanced civilizations in the universe? They will all be there, talking to each other.

So I can understand why some would like to re-check certain impossibilities just-in-case. Because their breakage would be huge.

bunk source

From the same source that claims quantum entanglement can be used for 'super fast communication'. Author is a nobody who doesn't understand what he's writing about, our even bothers to proofread.

Maybe it will work

Maybe not.Maybe it will both.

Re:Maybe it will work

[john5819]

While being neither.

Careful to not crash the universe!

[gweihir]

Given the universally observable incompetence, the simulation environment running this universe is probably running on something in the same class as Windows XP. Create too many exceptions like the one in this experiment (ordinary things are clearly not simulated at this detail...) and you may just crash the whole thing. That may be bad.

Re:Careful to not crash the universe!

[glenebob]

The last back up they did was around 65 million years ago (12:00 this morning, laptop time).

Re:Careful to not crash the universe!

Yeah, Windows XP is a damn fine OS based on the NT OS. I think you're thinking of Window 3.x, based on DOS.

Re:Careful to not crash the universe!

I'll await your comparative implementation, and judge the relative merits myself.

Re:Careful to not crash the universe!

[mentil]

The computer running the simulation we live in will one day soon be infected by ransomware. Will our creators pay the ransom, or just wipe the system and start over? We have to provide enough value to our creators to justify them paying up.

Re:Careful to not crash the universe!

Nah it's ok or else it would have been crashed long ago by other civiliz

Re: This is a play on words and classical thinking

Trump would grab that experiment by the slit.

they transmitted...

*THIS* message?

Re: they transmitted...

[Brockmire]

Quantumpornhub.com is still being set up.

Re: they transmitted...

[mentil]

It's both hardcore AND softcore, until you measure it.

An answer

[Okian+Warrior]

You can define a particle as something that has energy - either rest energy as mass, or energy in motion as a photon.

Most of the time you need some sort of transfer of energy to transfer information. A photon is sent from one place to another, it interacts with a sensor, and information is exchanged.

One interpretation of this effect is that the photon itself doesn't travel down the path, it's the *probability* of the photon that travels down the path. When a particle is emitted, the universe takes the particle and puts it on a shelf somewhere (outside the universe) and sends out an instantaneous probability wave. As the wave evolves, the universe checks it for interactions with things along the path, and when the probability indicates an interaction it replaces the probability wave with the particle.

The probability wave takes all possible paths from the source to the destination, including non-straight paths. Most of the time most of the paths cancel out, leaving one path (the straight line) or two (beamsplitter mirror) or a few more, depending on the configuration.

I haven't found a non-paywalled version of the frikkin' paper yet, so I can't comment on what they're doing, but it seems like they are using the probability that the particle might be at the destination to affect particles at the destination without actually sending the particle.

There was an article in Scientific American that talked about taking a picture of Medusa without receiving any photons from Medusa. The presence of a photon in a cavity will alter the resonance frequency of a cavity which can be detected (IIRC - the article was many years ago).

If what the paper claims is true(*), it means that information can be transferred from one location to another without the transfer of energy, which is a very interesting philosophical statement.

(*) Many times in physics, especially QM, experimental outcomes turn out to be different than expected, so it's good to do the experiments. (Viz. Popper's experiment.)

Re: An answer

[piotroxp]

You do not transfer Energy to shine the light - you are shining your light on a Time Crystal that is repeatedly pump probed. Thats why this is all a very crude proof of Electromagnetic Field Patterns. You need Energy anyway to keep the metastable state in coherence, and you are still using spatial photons for this communication.

Re:An answer

Even if what the paper says is true then you still can't transfer information without transferring energy. First, you have to transfer a "stream" of photons to set up the interferometers and make sure the phase arrangement is correct. The apparatus when subjected to a regular light beam definitely does transfer photons from A to B. Next, the light source is changed to individual photons. There are three information states. On, Off, and Fail. The fail state is one where photons may travel from A to B. So in actual use you must first stream photons to set up. Next you have some photons traveling from A to B which are registered as fail. I don't give those photons a pass as they are an integral part of the information transfer scheme.

Classical channel?

[Lije+Baley]

Does it require one? Or can I use it to get internet on my submarine?

Re:Classical channel?

It doesn't need the classical channel.

But you will be stuck with a bundle including the christian broadcasting, shopping and the "fishing shit"*.

* reference for the British TV comedy geeks

Re:Classical channel?

[PPH]

Never mind your submarine. Maybe now we can get optical broadband to our neighborhood without having to dig up the sidewalks and bury fiber.

If this does in fact work, it's going to be buried so deep by the three letter agencies that we'll never see it. Imagine me having essentially what are a pair of optical modems linked by quantum entanglement. One in my house and one in a rack at an ISP in a country with the power to say "Fuck you!" to the NSA. And nothing they can tap between the two.

Nothing new here?

[JustNiz]

How is this any different from modulating the light with e.g. coloured filters to send signals?
It seems to me people have already been doing this for centuries.

From TFA

[xbytor]

"artefacts that couldn't surprise direct light shined on them."

Some needs to be severely reprimanded for this.

Re:From TFA

[wonkey_monkey]

Some needs to be severely reprimanded for this.

...eh? ;)

3*10^8 m/s.

Is there any idea why Lightspeed == Radio speed ?

They travel with a minimum delay of 3.3 ns per meter.
For longer distances, the signal loses amplification.

Re:3*10^8 m/s.

[wonkey_monkey]

Is there any idea why Lightspeed == Radio speed ?

Yes, it's because radio is light.

Re:3*10^8 m/s.

I'm not sure that radio is light.

There are counter-examples of the real world:

An antenna is not a lantern.
A lantern is not an antenna.

The electrons and photons have the same max. speed but it's not known why.

Re:3*10^8 m/s.

Proof: women are sex toys.

1. A pussy radiates heat.
2. Heat is infrared light.
3. Therefore no difference between a pussy and a fleshlight.

Somebody inform Trump immediately.

Re:3*10^8 m/s.

An antenna is not a lantern.

An antenna is the filament of a radio lightbulb.

Re:3*10^8 m/s.

[Wraithlyn]

I get what you're trying to say, but that's an oversimplification. The word light does not mean "anything in the entire electromagnetic spectrum" by any standard definition.

Lightspeed == radio speed because they are both forms of electromagnetic radiation (which travels at the speed of light).

Re:3*10^8 m/s.

[PhunkySchtuff]

Electrons don't move at the speed of light. They have mass (albeit quite a small, but non-zero, amount) therefore they can not move at light speed or they would have infinite mass (and take an infinite amount of energy to get up to speed).

Photons, not electrons, are the carrier of electromagnetic radiation. They move at the speed of light.

Antennas and lanterns both emit photons. Lanterns just happen to emit photons in a range of energy levels that our eyes are sensitive to. Antennas emit photons at a different wavelength that are picked up by long metal conductors, aka other antennas.

Re:3*10^8 m/s.

[brantondaveperson]

Radio utilizes an electron as the messenger particle.

It's helpful to stop reading the above comment at this point, and start watching out for all the electricity flying through the air into your radio.

Radio is electromagnetic radiation. So is light. Here's a handy chart

.

Re:3*10^8 m/s.

An antenna is the filament of a radio lightbulb.

This is not really a fair comparison. Typically an emitting antenna involves a bunch of charges moving together to create an oscillating field that radiates, and in that sense is nothing like a filament where heat causes a bunch of emission processes, including oscillating charges, to emit a broad spectrum.

But you can find exact analogs of both. You can make antennas comparable to visible light wavelength and get resonant absorption just as you would expect for a tuned antenna. You can make electrons oscillate anywhere from RF to gamma ray frequencies in free space with something like a free electron laser. Similarly, you can measure radio waves from a black body emitter, just usually you need something much bigger than a light bulb filament as a blackbody needs to be absorbing and re-emitting, necessitating something usually bigger than the wavelength. This happens all the time with astronomical blackbody emitters light stars.

Re:3*10^8 m/s.

[wonkey_monkey]

There is no standard definition of the term, and if there was, Wikipedia would not be the definitive source for it. In fact, the Wikipedia page says this:

The word usually refers to visible light

In physics, the term light sometimes refers to electromagnetic radiation of any wavelength, whether visible or not

Re:3*10^8 m/s.

[sl3xd]

Electrons don't move at the speed of light.

True, but an electrical signal generally can travel a significant faction of c , with ladder line achieving 95-99% of c.

An imperfect model would be the same way sound can travel very quickly in a block of solid steel (~5700 m/s) while an individual atom of steel doesn't really move at all.

Re:3*10^8 m/s.

[Wraithlyn]

The word usually refers to visible light

Yes, that's exactly my point. And any sampling of dictionary definitions will confirm this.

• Encyclopedia Britannica: "electromagnetic radiation that can be detected by the human eye"
• Merriam Webster: "something that makes vision possible", "the sensation aroused by stimulation of the visual receptors", "specifically : such radiation that is visible to the human eye"
• Oxford: "The natural agent that stimulates sight and makes things visible."
• Cambridge: "the brightness that comes from the sun, fire, etc. and from electrical devices, and that allows things to be seen"

I would suggest this ubiquity constitutes a standard definition, at least in terms of commonly accepted usage.

In physics, the term light sometimes refers to electromagnetic radiation of any wavelength

And that's why I called your post an oversimplification, instead of incorrect. It is more accurate to say light and radio are both forms of EM radiation, than simply to state radio == light.

Further answer

[Okian+Warrior]

I've found the paper.

Using beamsplitters, Alice sets up one probability path that goes out to Bob and back. Bob can either insert a mirror, reflecting the probability path back to Alice, or not, making the probability path end there. Bob's mirror will change the phase of the Alice's photon in a way that can be detected by Alice, even though the photon doesn't actually go out to Bob.

A good simple example of what they're doing is the quantum bomb detector, where you can determine whether a bomb attached to a single-photon detector would explode if given a photon... without actually giving it a photon.

In the bomb example, you are getting information about the bomb without actually transferring energy to or from the bomb.

The experiment in the paper is somewhat similar.

Re: Further answer

[piotroxp]

They had some fun with interferometers and called Patterns the Zeno effect The article is nice, nothing exciting though. The misunderstandings...

Re:Further answer

[q4Fry]

In the bomb example, you are getting information about the bomb without actually transferring energy to or from the bomb.

As I understand it (and I'm not fully confident that I do), you sometimes get information about the bomb without transferring energy to or from the bomb.

link to paper

https://sci-hub.cc/10.1073/pnas.1614560114

i think it's the one, took 1 minute to find its DOI and look that up on scihub

Exactly that

[Okian+Warrior]

How is this any different from modulating the light with e.g. coloured filters to send signals?
It seems to me people have already been doing this for centuries.

it's exactly like modulating light using coloured filters.

Except that there is no light.

Re:Exactly that

[JustNiz]

OK, so they're just modulating dark with coloured filters.

Re: This is a play on words and classical thinking

and hillary would munch it.

Respect for SciHub

[Okian+Warrior]

https://sci-hub.cc/10.1073/pnas.1614560114

i think it's the one, took 1 minute to find its DOI and look that up on scihub

1) I took more than 1 minute to look for other versions first, out of respect for SciHub. SciHub is a great resource, and I don't like to use their resources if it can be avoided.

2) I didn't post the SciHub link, out of respect for SciHub. SciHub is a great resource, and I don't want to use up their resources by publicly posting their links.

3) Pointing out things obvious to you in a snarky way is elitist.

4) Nothing is easier and more pathetic than being a critic.

Re:Respect for SciHub

http://cpb.iphy.ac.cn/CN/article/downloadArticleFile.do?attachType=PDF&id=69209

Probabilistic direct counterfactual quantum communication

Re:Respect for SciHub

> 4) Nothing is easier and more pathetic than being a critic.

How emotionally damaged are you, really?

Just playing with words, nothing more

[john5819]

Using the term "counterfactual" is quite a good choice, as the claims being made are certainly counter to the facts. The fact that light, in all it's forms, can be described as waves doesn't mean that photons, which can equally be described as particles, were not involved. It's a bit like calling bullshit a rose - it doesn't stop it being bullshit.

Explain please kthxbye

[wonkey_monkey]

The article is woefully short on details. What, exactly, do the senders of a message do, in this case?

And what is a "quantum channel"?

Re: Explain please kthxbye

[piotroxp]

This they left out, because with *Proven* dark Matter bullshit they would have to explain it as dark Matter filaments. If you understand patterns you would know that its a wormhole in Time, because after phase Matching the synthetic photons are literally in the same Time, always. That experiment also shows than an Arrow of Time is Utter crap.

TFA is counterfactual

[WaffleMonster]

"The basic idea is this - someone wants to send an image to Alice using only light (which acts as a wave, not a particle, in the quantum realm)."

Nonsense. Photons have properties of both.
https://en.wikipedia.org/wiki/...

"researchers have been able to experimentally achieve it - transferring a black and white bitmap image from one location to another without sending any physical particles."

If you pretend a photon is only a particle which it is not then you can make pretend statements such as the above. And in a counterfactual pretend universe you would be right.

Re: TFA is counterfactual

[piotroxp]

Indeed. I am at a loss for words how People are ignorant towards the Photon, and the discussed bullshit here Just proves that a single mathematical framework for light is needed

I didn't read the article but wave particle

duality is a semantic cheat here. If something in the physical world can be defined in two of two ways and you use it in one, but not the other and then say it is 'not' behaving like the other way, you've cheated semantically and accomplished what you wanted with the same one thing... pbbth.

Re:This is a play on words and classical thinking

Lol, I got modded down. Yet someone else said practically the same thing and got modded up.

Quantum moderation weirdness at it's best.

Either wrong or just incomprehensible

[HiThere]

I can't decide whether the summary is wrong or just incomprehensible. I think it's wrong. Of course, it *may* be accurately reporting on the original article... but skimming the article I think that it's (the linked article) incomprehensible rather than just wrong. (It may also be wrong, but that's not something I can check.)

The article seems to imply that a quantum channel can transmit information without transmitting particles. (paraphrase "If the channel transmits a particle then it is discarded".) This seems wrong to me, but it's well out of my area of expertise.

Re: Either wrong or just incomprehensible

[piotroxp]

Its wrong - they phased two simulated photons, and thus made the system entangled. In common language, that means they used a pump probe approach to this problem. In other words, they were repeatedly shining light on phase matched probe. The were literally making timeless photons. In the en, the promo shows they have zero clue what they did Entanglement is Phase Matching.

Uh, I'm not sure I understand. Is this the same

[mark_reh]

thing as all the "alternative factual" communications I've been seeing so much of recently?

More bewilderment on my part

[fyngyrz]

There are two basic ways to build yourself a radio antenna.

One responds to electrostatics; this, generally speaking, is electron, or photon activation - electrons in the antenna move because the applied charge across the antenna varies. This is ambient electron pressure varying as a function of the radio signal. This results in push-pull down the antenna cable, and it's amplified at the receiver, etc.

The other responds to magnetic fields. Not ambient electron pressure. A loop antenna is a classic example of that, and it's why I used it in my example.

Radio is an electro-magnetic phenomenon. EM for short. Electricity (electron flow and potential) is not the same as magnetism. Either one can induce the other. But they are not the same. And the claim that magnetism is photons... I just don't understand how that could describe reality. Unless photons ignore solid objects, and everything I've ever experienced (again, not a physicist or anything approaching one) tells me they don't. Electrons - photons in another life - stop at insulators. They don't transit them. Whereas magnetism is well known to do exactly that, and with zero trouble. Or so I conceived of it all until today.

So... the statement "magnetism is photons" makes no sense to me because radio goes right through very dense insulating materials, generally speaking. Materials that, for instance, the photons from my flashlight will not. Even if it's hella bright. Further, there is so little energy in radio waves that are nonetheless receivable, the idea of them (meaning photons) transiting a dense, thoroughly opaque substance with no particular attenuation is notionally counterintuitive to me. Which still doesn't mean it's wrong (see (a), below.) I can tell you for a fact that the magnetic component of radio waves do this, though. Which, it seems to me, implies that magnetic waves are not photons doing... well, whatever.

I have read all the answers and either (a) I am missing so much of the underlying physics information (most likely) that I cannot understand it, or (b) it hasn't actually been explained yet, or (c) the entire idea is somehow misdescribed so I *can't* understand it, but it's really something, just something else.

Re:More bewilderment on my part

Either one can induce the other. But they are not the same.

Relativity (which is just Lorentz transformers, something inherent to the Maxwell's equations) shows that electric and magnetic fields are interchangeable by simply changing your reference frame. Some graduate level homework problems about particle motion in complicated fields amount to just changing to a frame where the magnetic or electric field disappear, and you have a simpler problem to deal with... but still the same situation.

Unless photons ignore solid objects

Photons don't ignore solid objects, but are quite capable of going through a lot of solids with vary effects. This is also quite true of magnetism which doesn't ignore solid objects, as everything is slightly paramagnetic or diamagnetic anyway.

Electrons - photons in another life - stop at insulators. ... So... the statement "magnetism is photons" makes no sense to me because radio goes right through very dense insulating materials, generally speaking

I don't see what the connection you're trying to make to electrons is, as I don't see how electrons are photons in any sense, past or present life. Photons have no problem going through insulators, if anything, it should be easier to go through an insulator than a conductor, as there is no or less coupling to the material. Of course the property of insulator or not vastly depends on frequency for many materials (e.g. germanium makes a great optic material for some IR frequencies, but is completely opaque to your flashlight).

I can tell you for a fact that the magnetic component of radio waves do this, though.

You can't really separate the magnetic and electric fields in the far field, in the sense you can't have one blocked and the other propagate as a wave. If you have a material that reacts to the electric field, e.g. a conductor, you will induce currents that create magnetic fields canceling out the magnetic component too. Hence why you can block RF signals with conductors. It goes the other way too, a material with high permeability at the frequency of concern also works great for blocking RF, as opposed to just stripping the magnetic part.

I am missing so much of the underlying physics information (most likely) that I cannot understand it, or

The quantum electrodymamics theory is the source of the idea that all magnetic and electric interactions are from photons. This theory is considered a triumph of modern physics, because it provides some of the most accurately confirmed predictions of any physical theory. The idea of virtual particle exchange, which is how you can have charged particles interacting with a background field or distance source via virtual photons, is not straightforward to grasp and is heavily butchered by many popsci writings. Wikipedia gives a terse overview at least. A lot is written on this topic, and you can find free class notes varying from graduate level QFT courses assuming a lot of background, to undergrad particle physics classes that just assume intro level physics.

Yall motherfuckers need some patterns

[piotroxp]

https://www.quora.com/What-doe... Fixed, enjoy my Quoras

So my question then:

If they can transfer a bitmap via it, can they transmit a roundtrip ntp request. And if so does it result in the expected latency for the distance travelled, or further, or shorter?

Re: someone else said practically the same thing

[slashrio]

Maybe that someone else didn't mention Trump?

Re:a country with the power to say Fuck you NSA

[slashrio]

I don't know whether you noticed, but those countries are becoming increasingly rare...

Some (cough) light at last

[fyngyrz]

Thank you. Although I have no great depth in the areas you're describing, you did provide a coherent framework that gives me some idea what might be happening. And you provided enough touchstones for me to fumble through learning more. Very much appreciated.

I got the idea that electrons = photons from camera sensor descriptions in the popular press. No doubt there was some level of error there, starting with me and possibly extending further. I've parked that idea. :)

You can't really separate the magnetic and electric fields in the far field, in the sense you can't have one blocked and the other propagate as a wave.

Well, that's not really what I was saying; a loop antenna responds very little to electrostatic stimulus; this property makes it highly immune to local noise. Instead, it responds to the magnetic field, which tends to not be large in comparison for low energy local sources. Switching antenna types to a loop can and does result in noise levels dropping very significantly, and signals appearing that were previously completely buried in said noise. So both fields are there, but detecting the one doesn't have to involve detecting the other, and therefore the reception achieved can be said to be specifically of the magnetic component. Which I didn't understand to be composed of particles, as you have explained. Now that you have explained it, I understand the process to be an exchange of particles, and so that answers my original question - how is [idea in TFS] different than radio. Answer being, no particle exchange vs. particle exchange. That about sum it up?

I've seen this before...

[jtalle]

The Bat Signal.

Communication using "pilot wave theory"

[damas]

As per de Broglieâ"Bohm pilot wave theory, changing the properties of the wave by modifying Bill's setup will have measurable effects on Alice's not outgoing particle :-) It's so much simpler when you're using pilot wave theory. There's a particle and there's a wave. Literally.

Stargate Comm stones

And thus the Stargate SG-1 communication stones are born.