This article should really be called "Patching the argumentative flaw in the Sequences created by the Quantum Physics Sequence".
There's only one big thing wrong with that Sequence: the central factual claim is wrong. I don't mean the claim that the Many Worlds interpretation is correct; I mean the claim that the Many Worlds interpretation is obviously correct. I don't agree with the ontological claim either, but I especially don't agree with the epistemological claim. It's a strawman which reduces the quantum debate to Everett versus Bohr - well, it's not really Bohr, since Bohr didn't believe wavefunctions were physical entities. Everett versus Collapse, then.
I've complained about this from the beginning, simply because I've also studied the topic and profoundly disagree with Eliezer's assessment. What I would like to see discussed on this occasion is not the physics, but rather how to patch the arguments in the Sequences that depend on this wrong sub-argument. To my eyes, this is a highly visible flaw, but it's not a deep one. It's a detail, a bug. Surely it affects nothing of substance.
However, before I proceed, I'd better back up my criticism. So: consider the existence of single-world retrocausal interpretations of quantum mechanics, such as John Cramer's transactional interpretation, which is descended from Wheeler-Feynman absorber theory. There are no superpositions, only causal chains running forward in time and backward in time. The calculus of complex-valued probability amplitudes is supposed to arise from this.
The existence of the retrocausal tradition already shows that the debate has been represented incorrectly; it should at least be Everett versus Bohr versus Cramer. I would also argue that when you look at the details, many-worlds has no discernible edge over single-world retrocausality:
- Relativity isn't an issue for the transactional interpretation: causality forwards and causality backwards are both local, it's the existence of loops in time which create the appearance of nonlocality.
- Retrocausal interpretations don't have an exact derivation of the Born rule, but neither does many-worlds.
- Many-worlds finds hope of such a derivation in a property of the quantum formalism: the resemblance of density matrix entries to probabilities. But single-world retrocausality finds such hope too: the Born probabilities can be obtained from the product of ψ with ψ*, its complex conjugate, and ψ* is the time reverse of ψ.
- Loops in time just fundamentally bug some people, but splitting worlds have the same effect on others.
I am not especially an advocate of retrocausal interpretations. They are among the possibilities; they deserve consideration and they get it. Retrocausality may or may not be an element of the real explanation of why quantum mechanics works. Progress towards the discovery of the truth requires exploration on many fronts, that's happening, we'll get there eventually. I have focused on retrocausal interpretations here just because they offer the clearest evidence that the big picture offered by the Sequence is wrong.
It's hopeless to suggest rewriting the Sequence, I don't think that would be a good use of anyone's time. But what I would like to have, is a clear idea of the role that "the winner is ... Many Worlds!" plays in the overall flow of argument, in the great meta-sequence that is Less Wrong's foundational text; and I would also like to have a clear idea of how to patch the argument, so that it routes around this flaw.
In the wiki, it states that "Cleaning up the old confusion about QM is used to introduce basic issues in rationality (such as the technical version of Occam's Razor), epistemology, reductionism, naturalism, and philosophy of science." So there we have it - a synopsis of the function that this Sequence is supposed to perform. Perhaps we need a working group that will identify each of the individual arguments, and come up with a substitute for each one.
Yeah, I don't think this paper is going to convert you. As my other comment on this thread will attest, I consider TI pretty much a failed project, so maybe I'm not the best person to defend it. Still, here's my most charitable attempt to answer MichaelHoward's questions on behalf of TI.
TI has a claim to be less complex than MWI in one respect. Relativistic versions of the Schrodinger equation have both advanced (waves propagating backwards in time) and retarded (waves propagating forward in time) solutions. A relativistic version of MWI would presumably ignore the advanced solutions by fiat (or based on some "principle of causality", which I think just amounts to fiat). Specifying this condition adds to the complexity of the theory. TI doesn't require this specification, since the interpretation incorporates both advanced and retarded solutions. Another advantage of TI is that it does not require specification of a preferred basis.
What about MWI's main claim to simplicity, the lack of any collapse postulate or hidden variables? The original TI involved the "selection" of one transaction out of many in accord with the Born rule, and this might be regarded as tantamount to collapse. A new version of the TI developed by Ruth Kastner (called the PTI, or possibilist transactional interpretation), defended in the linked paper, goes modal realist, and declares that all possible transactions are real, but only one is actual. I don't know what to make of this claim. I don't understand how "actualization" is any better than "collapse". Simply declaring the other branches to be real doesn't help if you still need to appeal to a mysterious selection procedure, even if the selection procedure only determines what is actual rather than what is real. Perhaps it is possible to make sense of actualization in a non-mysterious manner, separating it from collapse, but I haven't seen evidence of this. The paper says at one point, "Such actualized transactions will furthermore naturally line up with decoherence arguments, since decoherence... is fundamentally based on the nature of absorbers available to emitted particles." I don't understand this claim.
Of course, Cramer and Kastner claim that MWI's advantage in this regard is illusory, a product of disregarding the Born rule. Any attempt to account for the full formalism of quantum theory (unitary evolution + the Born rule) will have to involve some component like their actualization procedure. This ignores Deutsch and Wallace's attempts to ground the Born rule in assumptions about rational decision-making, which I think are promising (although I know you, Eliezer, disagree).
A very very small proportion, I'm fairly sure.
All of this depends on how you interpret the "actualization" step in the PTI account. I take it that it's not meant to be a dynamical process like objective collapse, in which case the dynamics have a claim to being continuous, time-reversible, unitary, etc. I should note that thinking of a retro-causal interpretation in terms of our usual dynamical systems framework (talking about the "evolution of the quantum state", for instance), can be misleading. These theories explicitly reject the idea that explanatory priority implies temporal priority.
Well, depends on what you mean. Influence transmission is restricted within light cones, but since this transmission can be either backwards or forwards in time, you can get phenomena which, from a temporally chauvinistic point of view, appear to involve FTL transmission.