tag:blogger.com,1999:blog-3832136017893749497.post755025969926078628..comments2023-09-29T08:49:30.765-04:00Comments on Elliptic Composability: Florin Moldoveanuhttp://www.blogger.com/profile/01087655914212705768noreply@blogger.comBlogger15125tag:blogger.com,1999:blog-3832136017893749497.post-27416988755840444022016-08-24T07:24:18.862-04:002016-08-24T07:24:18.862-04:00When we measure two entangled particles, the measu...When we measure two entangled particles, the measurement systems become entangled too. It is obvious that they do not become entangled by direct interaction between them.<br />And "direct interaction" is a fuzzy term, I quess...Anonymoushttps://www.blogger.com/profile/01968774989109871749noreply@blogger.comtag:blogger.com,1999:blog-3832136017893749497.post-29671333756826978472016-08-24T06:20:36.705-04:002016-08-24T06:20:36.705-04:00The main difference is that Hardy's proof is p...The main difference is that Hardy's proof is probabilistic and more rigorous. Your demonstration I think connects with Hardy's with the outcomes of particle 2 and 3 that Charlie communicates. As a result the particles 1 and 4 appear randomly.Lawrence Crowellhttps://www.blogger.com/profile/12090839464038445335noreply@blogger.comtag:blogger.com,1999:blog-3832136017893749497.post-20712752089708422832016-08-24T00:14:33.596-04:002016-08-24T00:14:33.596-04:00Lawrence, first I did not prove anything remotely ...Lawrence, first I did not prove anything remotely new, I simply worked out in detail what is usually given as a homework problem in quantum information classes. Second, Hardy's proof is different and to compare it with this silly little problem diminishes the importance of Hardy's result. Third, what I explained has a very nice and neat explanation in the pictorial formalism of QM.Florin Moldoveanuhttps://www.blogger.com/profile/01087655914212705768noreply@blogger.comtag:blogger.com,1999:blog-3832136017893749497.post-13905932357619655792016-08-24T00:09:59.851-04:002016-08-24T00:09:59.851-04:00Lubos, you cannot rewrite history. You cannot clai...Lubos, you cannot rewrite history. You cannot claim you said PBR is a good theorem, or that quantum correlations are not like the socks, or that QM is nonlocal, or that correlations do not require direct interaction. <br /><br />You repeated the idea that correlations require direct interaction too many times and in too many contexts to pedal back now. Florin Moldoveanuhttps://www.blogger.com/profile/01087655914212705768noreply@blogger.comtag:blogger.com,1999:blog-3832136017893749497.post-41153784755774275962016-08-23T23:56:49.082-04:002016-08-23T23:56:49.082-04:00"you are using the perspective of someone who..."you are using the perspective of someone who sees 2,3 to actually claim that the correlation exists"<br /><br />This is pure nonsense. Keep generating particles 1 and 4 and do measurements on them in 2 spatially separated labs. Then compare the lab notes and observe the correlations.<br /><br />Knowing the inner workings (from inside or outside) I can make correlation predictions. From outside I can experimentally measure the correlations. If the particles are not released outside I can do the same thing inside as well.Florin Moldoveanuhttps://www.blogger.com/profile/01087655914212705768noreply@blogger.comtag:blogger.com,1999:blog-3832136017893749497.post-83286572393729747902016-08-23T19:17:49.952-04:002016-08-23T19:17:49.952-04:00Florin's demonstration of nonlocality is simil...Florin's demonstration of nonlocality is similar to Lucien Hardy's proof of nonlocality. Hardy illustrated much the same in his 1993 PRL paper. Lawrence Crowellhttps://www.blogger.com/profile/12090839464038445335noreply@blogger.comtag:blogger.com,1999:blog-3832136017893749497.post-7871759662972899192016-08-23T06:16:33.329-04:002016-08-23T06:16:33.329-04:00Incidentally, your talk about 4 particles and enta...Incidentally, your talk about 4 particles and entanglement swapping is completely redundant if you only want to exploit your fallacy of neglecting 2+3 to argue that there is remote action.<br /><br />You could make the argument just with the simple 2 entangled particles 1,2. They're generated by a source, and fly to places A,B. A measures 1 to be up, so he knows 2 to be down. You may immediately forget that the spin of 1 was uncertain and could have come out in both ways - just like you are forgetting about the 2 possible values of the joint 2+3 measurement in the swapping case.<br /><br />If you forget that this bit wasn't known to start with, you may take the perspective of A and say that the spin up of 1 is a "fact", erase this variable from probabilistic distributions, and just claim that particle 2 has the spin down, because you know it to be the case.<br /><br />In this case, you have created a remote particle with the desired spin - you acted at a distance, without the cause in the past light cone.<br /><br />The mistake of this claim is exactly the same as the mistake you keep on repeating in this unnecessarily redundant situation. The point is that the spin of 1 wasn't determined so you can't erase it from considerations of correlations. The observer A couldn't have "ordered" particle 1 to "show itself" as up or down - it was up to the particle's or Nature's random quantum generator. And the existence of this random generator doesn't mean that other random numbers can't be correlated. Indeed, the perfect entanglement guarantees that the spin of 2 is measured to be exactly the opposite.<br /><br />So in this case, it is spectacularly clear that A didn't exert any remote action on particle 2. The actual cause of the 1-2 correlation was the common production of the entangled pair in the source.<br /><br />It's exactly the same in the swapping case. The actual cause of the 1-4 correlation wasn't some mysterious action at a distance without causes in the past light cones. The actual cause of the correlation that always holds - correlation that must be formulated as a correlation between 1, 2 XOR 3, 4, otherwise it simply doesn't hold or exist - is the triplet of the relevant events: the emission of a pair 1+2 by one source, 3+4 by another source, and the joint measurement of 2+3. These are the actual causes and all the correlations between the relevant objects only appear in the intersections of future light cones of these events exactly as dictated by locality.Luboš Motlhttps://www.blogger.com/profile/17487263983247488359noreply@blogger.comtag:blogger.com,1999:blog-3832136017893749497.post-6575337565539950242016-08-23T06:03:55.509-04:002016-08-23T06:03:55.509-04:00Dear Florin, particles 1 and 4 didn't interact...Dear Florin, particles 1 and 4 didn't interact directly, but the correlation between 1 and 4 and nothing else is correspondingly not the correlation that actually exists.<br /><br />The correlation that actually exists is one between three bit-like variables, 1, 2 XOR 3, and 4. These three *did* have direct interactions. 1 and 2 XOR 3 interacted directly when the 1-2 pair was created, and 2 XOR 3 and 4 interacted directly when the 3-4 pair was created.<br /><br />So there is nothing "overarching" about "my" statement. It's not mine. It's *the* principle of locality that you should have understood before you passed your special relativity undergraduate course.<br /><br />It is you who is being sloppy all the time and inserting mistakes and omissions at every other place. I am perfectionist and avoid all these mistakes, especially if they would matter for some big conclusions.Luboš Motlhttps://www.blogger.com/profile/17487263983247488359noreply@blogger.comtag:blogger.com,1999:blog-3832136017893749497.post-67034369747174955442016-08-23T05:59:43.106-04:002016-08-23T05:59:43.106-04:00It doesn't matter whether the cause of the cor...It doesn't matter whether the cause of the correlation - or any correlation - is visible. The extermination of Jews in Auschwitz was hidden behind the walls and invisible to the world, but it was still the cause of the later correlation between being Aryan/Jewish and being alive/deceased.<br /><br />All correlations between several variables A_i always may be explained by causes in intersection of at least 2 past light cones from the list, events at that places, and the propagation at most by the speed of light. This is the actual principle of locality or relativistic causality in Nature and it doesn't say anything about the need for something to be "visible".<br /><br />But if someone is using a property of the particles 2,3 to deduce correlations, properties of the particles 2,3 must clearly be visible to *him*. Your cheating is therefore just the trivial thing I have pointed out about 10 times and every person with IQ above 100 understands it very well.<br /><br />You are inconsistently using the perspective of someone who doesn't see particles 2,3 or their properties to argue that the correlation has nothing to do with the events involving 2,3; but you are using the perspective of someone who sees 2,3 to actually claim that the correlation exists. You can't have it in both ways. There are two different perspectives that have different probability distributions - one of them has a correlation, the other hasn't - and each perspective agrees with the principle of locality as I have stated it.<br /><br />By repeating your complete misunderstanding of this trivial point for weeks, you are only proving that your brain is absolutely inadequate for doing science.Luboš Motlhttps://www.blogger.com/profile/17487263983247488359noreply@blogger.comtag:blogger.com,1999:blog-3832136017893749497.post-20514647570214702482016-08-22T21:48:42.805-04:002016-08-22T21:48:42.805-04:00Entanglement does not come out of nothing. However...Entanglement does not come out of nothing. However you do not need to have direct interaction and I was pointing out Lubos' overreaching statement. He has many more other instances where he paints the picture with too broad a brush and does not pay enough attention to details.Florin Moldoveanuhttps://www.blogger.com/profile/01087655914212705768noreply@blogger.comtag:blogger.com,1999:blog-3832136017893749497.post-91301271783988440652016-08-22T10:40:14.754-04:002016-08-22T10:40:14.754-04:00As I understand, even you can generate entangled p...As I understand, even you can generate entangled particles which never interacted (what you said), you cannot generate entangled particles without prior interactions (what Lubos said).Anonymoushttps://www.blogger.com/profile/01968774989109871749noreply@blogger.comtag:blogger.com,1999:blog-3832136017893749497.post-19774118647042592222016-08-21T10:16:49.455-04:002016-08-21T10:16:49.455-04:00The main thing that you have demonstrated is that ...The main thing that you have demonstrated is that a sufficiently complex apparatus can complexify the simple notion of photon entanglement so that two or any number of very smart quantumologists can argue endlessly about entanglement.<br /><br />This is a very, very deep rabbit hole...<br /><br />You might consider returning to the single photon, source and observer with a single beamsplitter. A single photon represents a bonding state between a source and observer and multiple paths affect the quantum nature of that bond. <br /><br />So what else is new?<br /><br />Quantum bonds involve entanglement, exchange, and have lots of classical causal issues. The main problem with all of this Bell stuff is the neglect of the return or resonance state between the source and observer. Although short-lived, the resonance state is the key to this conundrum...but what do I know...steve agnewhttps://www.blogger.com/profile/00177693538649923112noreply@blogger.comtag:blogger.com,1999:blog-3832136017893749497.post-74068340552152466632016-08-20T22:08:29.990-04:002016-08-20T22:08:29.990-04:00One can think of particles 1 and 4 as teleported s...One can think of particles 1 and 4 as teleported states determined by Charlie. Before Charlie makes his measurement these states are not determined.Lawrence Crowellhttps://www.blogger.com/profile/12090839464038445335noreply@blogger.comtag:blogger.com,1999:blog-3832136017893749497.post-59272415769324181292016-08-20T08:37:34.486-04:002016-08-20T08:37:34.486-04:00From the outside particles 2 and 3 are not visible...From the outside particles 2 and 3 are not visible.Florin Moldoveanuhttps://www.blogger.com/profile/01087655914212705768noreply@blogger.comtag:blogger.com,1999:blog-3832136017893749497.post-47696605951924981532016-08-20T01:03:37.562-04:002016-08-20T01:03:37.562-04:00You have just repeated all your misconceptions ver...You have just repeated all your misconceptions verbatim and 100% ignored all my essential corrections. First, in the simple case, the entanglement or correlation isn't just between 1 and 4, it's between 1, 2+3 (perhaps a joint measurement bit from 2+3), and 4. <br /><br />The intersection of past light cones of these three bits (pairwise) *does* contain the events that explain their entanglement/correlation, namely the two events when 1+2 and 3+4 were pair-produced.<br /><br />When one includes open the gates, the actual correlation between the measurements of released 1,4 has much later past light cones than you drew in yellow, and their intersection contains the actual (last) reason of the correlation, namely Charlie's decision to open or not open the gates.Luboš Motlhttps://www.blogger.com/profile/17487263983247488359noreply@blogger.com