So, a new Copenhagen interpretation? 🤔
I'm good, thanks
Submitted 11 hours ago by fossilesque@mander.xyz to science_memes@mander.xyz
https://mander.xyz/pictrs/image/c5518c83-0ab2-4a4d-bf46-b4a601a98a08.jpeg
Comments
kubofhromoslav@lemmy.world 51 minutes ago
SapphironZA@sh.itjust.works 5 hours ago
Sounds like he is reading too much into the observer effect and now has been reclassified himself as an astrologer.
bitcrafter@programming.dev 7 hours ago
See, this is why I prefer the (terribly named) “Many Worlds” interpretation. Unlike the Copenhagen interpretation, it does not privilege measurement over other types of interactions between systems. That is, the wave function never collapses, it only seems to because you, as the observer, are part of the system.
The easy way to see this is to imagine that you put some other experimenter inside of a box. When they perform a measurement, from your perspective the wave function has not yet collapsed, but from the experimenter’s perspective the wave has collapsed. Essentially, it is as if the system in a box has branched so that there are multiple copies of the experimenter within, one who sees each possible measurement result, but because you are outside of it you could, in theory, reverse the measurement and unite the two branches. However, it is important to understand that the concept of branches is just a visualization; it is nothing inherent to the theory, and when things get even slightly more complicated than the situation I have described, they do not meaningfully exist at all.
(Also, if it seems implausible that a macroscopic system in a box could remain in a superposition of multiple states, you actually are not wrong! However, the reason is not theoretical but practical: any system inside the box will interact thermally with the box itself, so unless it is perfectly insulated you cannot help but interact with it and therefore measure it yourself. This keeps going until essentially the entire world cannot help but perform a measurement of your system. Preventing this tendency from screwing things up is one of the things that makes building quantum computers hard.)
bunchberry@lemmy.world 5 hours ago
The Many Worlds interpretation is rather unconvincing to me for many reasons.
|1| It claims it is “simpler” just by dropping the Born rule, but it is mathematically impossible to derive the Born rule from the Schrodinger equation alone. You must include some additional assumption to derive it, and so it ends up necessarily having to introduce an additional postulate at some point to derive the Born rule from. Its number of assumptions thus always equal that of any other interpretation but with additional mathematical complexity caused by the derivation.
|2| It claims to be “local” because there is no nonlocal wavefunction collapse. But the EPR paper already proves it’s mathematically impossible for something to match the predictions of quantum theory and be causally local if there are no hidden variables. This is obscured by the fact that MWI proponents like to claim the Born rule probabilities are a subjective illusion and not physically rule, but illusions still have a physical cause that need to be physically explained, and any explanation you give must reproduce Born rule probabilities, and thus must violate causal locality. Some MWI proponents try to get around this by redefining locality in terms of relativistic locality, but even Copenhagen is local in that sense, so you end up with no benefits over Copenhagen if you accept that redefinition.
|3| It relies on belief that there exists an additional mathematical entity Ψ as opposed to just ψ, but there exists no mathematical definition or derivation of this entity. Even Everett agreed that all the little ψ we work with in quantum theory are relative states, but then he proposes that there exists an absolute universal Ψ, but to me this makes about as much sense as claiming there exists a universal velocity in Galilean relativity. There is no way to combine relative velocities to give you a universal velocity, they are just fundamentally relative. Similarly, wavefunctions in quantum mechanics are fundamentally relative. A universal wavefunction does not meaningfully exist.
|4| You describe MWI as kind of a copying of the world into different branches where different observers see different outcomes of the experiment, but that is not what MWI actually claims. MWI claims the Born rule is a subjective illusion and all that exists is the Schrodinger equation, but the Schrodinger equation never branches. If, for example, a photon hits a beam splitter with a 50% chance of passing through and a 50% chance of being reflected and you have a detector on either side, the Schrodinger equation will never evolve into a state that looks anything like it having past through or it having been reflected. Indeed, even those probabilities I gave you come from the Born rule.
This was something Einstein pointed out in relation to atomic decay, that no matter how long you evolve the Schrodinger equation, it never evolves into a state that looks anything like decay vs non-decay. If the universe really is just the Schrodinger equation, you simply cannot say that it branches into two “worlds” where in one you see one outcome and in another you see a different outcome, because the Schrodinger equation never gives you that. You would have to claim that the entire world consists of a single evolving infinite-dimensional universal wavefunction that is nothing akin to anything we have ever observed before.
There is a good lecture below by Maudlin on this problem, that MWI presents a theory which has no connection to observable reality because nothing within the theory contains any observables.
www.youtube.com/watch?v=us7gbWWPUsA
Rovelli also comments on it:
The gigantic, universal ψ wave that contains all the possible worlds is like Hegel’s dark night in which all cows are black: it does not account, per se, for the phenomenological reality that we actually observe. In order to describe the phenomena that we observe, other mathematical elements are needed besides ψ: the individual variables, like X and P, that we use to describe the world. The Many Worlds interpretation does not explain them clearly. It is not enough to know the ψ wave and Schrödinger’s equation in order to define and use quantum theory: we need to specify an algebra of observables, otherwise we cannot calculate anything and there is no relation with the phenomena of our experience. The role of this algebra of observables, which is extremely clear in other interpretations, is not at all clear in the Many Worlds interpretation.— Carlo Rovelli, “Helgoland: Making Sense of the Quantum Revolution”
Natanael@infosec.pub 2 hours ago
Irrational probabilities makes MWI impractical unless you interpret the branching much like a continous graph (as a visualization, see phase of matter graphs) with an ever increasing number of dimensions. And yes continous branching is weird
bitcrafter@programming.dev 5 hours ago
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First, working in terms of decoherence is significantly simpler than worrying about whether something has been measured or not at every single step of the evolution of a system, because I have observed that when people do the latter they tend to get headaches contemplating the meaning of the “quantum eraser” when there is no need to. Second, you actually can observe Born’s rule in action by modeling the evolution of a system with an experimenter performing measurements and watching it emerge from the calculation.
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The only way that the two sides of the EPR pair know that they agree or disagree is by communicating with each other and comparing results, which can only happen through local interactions.
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I have no idea what you even mean by this. What makes the (terribly named) Many Worlds Interpretation nice is precisely that you can just treat everything as a wave function, with parts that might be entangled in ways you don’t know about (i.e., decoherence, modeled via density matrices).
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The fact that you are even making this claim is why I have trouble taking the rest of your comment seriously at all, because I specifically said, “However, it is important to understand that the concept of branches is just a visualization; it is nothing inherent to the theory, and when things get even slightly more complicated than the situation I have described, they do not meaningfully exist at all.”
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gbzm@piefed.social 2 hours ago
My understanding might be a bit superficial, but I thought the whole point of the MWI was to make explicit the fact that states are relative? To me the rationale was that states are relative and if we simultaneously describe relative states and their observers we can translate the shrödinger+born-rule in a density-operator+partial-trace-rule and make the wave function collapse physical (aka unitary) through branching and decoherence, even though that’s mathematically tedious and in practice people will keep using projectors (1). States being relative means their physical reality is somewhat broken but locality is mostly saved (2), so then we postulate that they derive from a universal wave function to rehabilitate some form of physical realism (3). As to (4), isn’t it solved if you assume that Schrödinger’s equation is actually the less fundamental formalism since it’s only valid for systems that are unrealistically isolated?
wonderingwanderer@sopuli.xyz 6 hours ago
So you’re saying there’s a world where Bernie Sanders won in 2016, trump died of covid without the presidential medical suite, americans have universal healthcare, rent control, net neutrality, and free tuition, citizen’s united was repealed, the US never pulled out of international treaties, russia never invaded Ukraine, the latest iteration of the Israel-Palestine conflict never kicked off, the Taliban never took back control of the Afghan government, the resurgence of white supremacy and militant nationalism never took off, criminal justice systems were reformed into data-driven, prevention-first, community-centric public safety models, social and mental health services are fully-funded and effective addiction treatment strategies implemented, reducing demand for the illicit drug market and financially starving out violent criminal syndicates, victimless crimes were decriminalized and regulated for harm-prevention and reduction, nations actually kept their commitments towards climate action and reduced warming to below the target of 2° (possibly even below 1.5°), financial oligarchy was stopped in its tracks, billionaires and corporations are taxed at a fair rate, world hunger has been abolished, and we’re all well on our way towards world peace and prosperity?
tomiant@piefed.social 5 hours ago
No.
HurricaneLiz@lemmy.world 5 hours ago
Yes
bitcrafter@programming.dev 4 hours ago
Yes, but it can be mathematically proven that this world was only made possible by the decimation of the population due to the tide pod challenge having been started two years earlier.
SmoothOperator@lemmy.world 7 hours ago
Unlike the Copenhagen interpretation, it does not privilege measurement over other types of interactions between systems.
Hmm, you could say it instead privileges the subjective experience over other types of interaction. There’s no reason in principle why you couldn’t experience every “world” at the same time, in the same way a measurement could in principle return all possible results at the same time.
But you don’t. Somehow your experience of reality is above unitary time evolution, even though “you” aren’t.
bitcrafter@programming.dev 6 hours ago
I agree completely that that the Copenhagen interpretation makes an excellent phenomenological model in simple (albeit, very common!) settings. However, the problem is that it breaks down when you consider experiments such as the “quantum eraser” (mentioned in other comments here), which causes people to tie themselves into intellectual knots because they are thinking too hard about exactly what is going on with measurement; once one deprivileges measurement so that it becomes just another kind of interaction, the seeming paradoxes disappear.
HurricaneLiz@lemmy.world 5 hours ago
I’m confused, bc in my armchair reading I’ve thought about why quantum computers try to store information rather than read it from the quantum wave state. Like if everything is connected, if you know about one thing you know about all things. I don’t even know if that makes sense 😂🤷🏻♀️
bitcrafter@programming.dev 4 hours ago
One of the things that a quantum computer needs to be able to do in order to function is to hold information at rest, no different from your classical computer. There are two things that make this tricky. First, the information is analog, rather than digital. Second, the environment likes to sneakily “measure” your data so that it decoheres and no longer behaves the way it should. Both kinds of problems are in practice dealt with by encoding the quantum information so that errors can be corrected.
If the word “decoheres” sounds really fancy, think about it this way: coherence versus decoherence is the difference between a rainbow and a grey cloud. In the former case the waves are able to interfere with each other in interesting ways, whereas in the latter case they scatter and do not interfere, producing boring results.
tomiant@piefed.social 5 hours ago
they do not meaningfully exist at all.
Does anything, really?
bitcrafter@programming.dev 4 hours ago
If you are able to read this, then you exist as a conscious being. Everything else is just a model, which you experience as thought projected into your consciousness, just as you experience other senses.
Juice@midwest.social 6 hours ago
If later you realize that you did have time, you will have already read and understood it
dumbass@piefed.social 11 hours ago
What does it mean?
SpaceNoodle@lemmy.world 10 hours ago
Sounds like it’s just trying to mix up words to make normal cause and effect sound like spooky action at a distance.
tomiant@piefed.social 5 hours ago
Words are a bad medium for conveying truth about reality. Or anything, really.
BB84@mander.xyz 2 hours ago
Pretty sure some slopmaster asked an AI chatbot to make a catchy headline for the quantum mechanics we’ve known for years.
You have a quantum cat-in-a-box. The cat is in a superposition of being alive and dead. You make the “human choice” to open the box. Now the cat turns out to be dead, and it actually died 10 minutes before you open the box. So you can kind of interpret it as your choice affecting reality 10 minutes backwards.
Adderbox76@lemmy.ca 6 hours ago
I’m intelligent, but not nearly intelligent enough for whatever this is…
Is this just another way of talking about the Teleological framework of time (like the heptapods in Arrival)?
YiddishMcSquidish@lemmy.today 5 hours ago
I think it has something to do with a philosophical argument I read almost 2 decades ago.
It went something along the lines of; we create new physics the more we study and understand it. Like a rendering fractal, the closer you look the more complex it becomes.
ebolapie@lemmy.world 4 hours ago
That reminds me of the bit from Hitchhiker’s Guide to the Galaxy where the moment anyone actually understands the universe the whole thing disappears and is replaced with something even bigger, weirder, and more confusing.
DragonTypeWyvern@midwest.social 4 hours ago
Mystical thinking is a great excuse for being too stupid to unravel the secrets of universal field theory like a dummy
bmpvy@feddit.org 3 hours ago
Damn I’m way too tired to dig into this now but it sounds worth a day of rabbit hole-ing
ComRed@hexbear.net 6 hours ago
I’m way too high for this shit.
Or not high enough.
kibiz0r@midwest.social 10 hours ago
Grail@multiverse.soulism.net 7 hours ago
Professor, we’re not sending information back in time, we’re just rearranging the structure of the multiverse!
Redacted@lemmy.world 10 hours ago
vane@lemmy.world 3 hours ago
Is it retrocausality ?
whiskers165@hexbear.net 6 hours ago
Life is literally so easy once you understand this one trick.
mrtuttle@lemmy.sdf.org 14 minutes ago
life in the suck zone.