The Century-Long Pause in Fundamental Physics
danieltan.weblog.lol> Senior figures (Smolin, Woit, Hossenfelder, Penrose)
Well one of the three is not like the other, three are very accomplished physicists, one is a youtuber who lies about the game to get clicks. (And we know she lies because she used to play the game quite competently.)
And sure enough they start talking about interpretations of QM.
The author (who is also the submitter; it seems nearly all his submissions are his own blog posts) is not a physicist, so it's hard for me to take seriously his sweeping dismissal of the field. Then I see he links to his own Revolutionary Theory, and it starts to look like outright crankary.
> Then I see he links to his own Revolutionary Theory, and it starts to look like outright crankary.
But what an AI-generated crankery! Because I enjoy wasting my time, I chose a random point (beginning of ch2) and started reading:
> Standard field-theoretic practice selects equations using symmetry, gauge invariance, and conservation. This chapter proposes a cognate selection principle built from three structural demands. A potential that carries energy must appear on the right-hand side of its own equation, because the energy it carries is part of what sources it. A potential that describes the same physics in every frame must have an equation that survives change of observer. A tensor equation must have matching ranks on both sides.
I've italicized a couple of items: Cognate selection principle? Really?
A tensor equation must have matching ranks on both sides? As opposed to all those tensor equations with differing ranks on both sides? Not exactly the type of thing that makes someone slap their head and shout "Why didn't I think of that?!"
The technobabble is interesting in that any single sentence might make sense in the absence of sentences nearby; It that regard, it's much like an Escher painting: Locally sensible, but globally out-to-lunch.
At least not all the author's blog posts seem to be AI-written: https://danieltan.weblog.lol/2023/01/why-most-image-gen-star...
I'm new to HN and was initially excited about the various intellectual and technological posts ... but isn't this literally just written by AI?
I've read like 5 posts in a row and it's starting to dawn on me that all this might be written by AI. Why tf would you even bother posting slop like that?
It's been really bad the last few months. You'd think people would want to share human blogs written by people. But half of the links are just different themes on different blogs all ghostwritten by Claude.
The problem is that we have a bunch of people trying to keep themselves relevant amid a great reshuffle, and there's so much noise that lovingly hand-crafted content gets ignored, so your only rational option if you don't already have an established audience is to slopspam.
> but isn't this literally just written by AI?
Evidently.
> Why tf would you even bother posting slop like that?
Maybe low-effort internet point farming? Maybe an attempt to rake in some ad money in the odd chance the post goes viral?
> I'm new to HN and was initially excited about the various intellectual and technological posts
Ehh... It's marginally above Reddit, but that is a very low bar to overcome.
It's decent toilet time.
Are you AI? You joined HN 5 years ago, dawg.
Account creation time may not line up with when someone actually started using the platform.
The main flaw in this write-up, AI or not, is it ignores the Bohr-Einstein debates on QM and Bell’s Inequality. I suspect the article deliberately ignores that debate.
If it was AI-generated, I’d guess the prompt included something like ‘support Einstein’s hidden variables theory with an argument that includes ‘ontology’, ‘machine learning’, ‘Copenhagen’ but specifically excludes any mention of Bell’s inequality, EPR, and also do not mention hidden-variables specifically.’
I want to make my stance clear.
Bell's theorem rules out local hidden variables, not hidden variables. An ontology-first approach to QM (rare in modern physics) takes Bell as the constraint it has to operate inside (same as Bohm-de Broglie) rather than as a settled debate.
The Bohr-Einstein debate wasn't adjudicated on substance. Copenhagen won sociologically, and the renewed traffic on it is the field acknowledging that "settled" was always a cultural claim.
My analysis is on diagnosing the methodological inversion that produced the impasse, rather than picking sides inside it.
After a bit of research, here’s a statement that probably reflects your position without ignoring Bell:
(1) “Since the consolidation of quantum field theory and the Standard Model, fundamental physics has mostly confirmed and refined an inherited ontology rather than replacing it. Many Beyond-Standard-Model programs have become too flexible, mathematically rich but empirically underconstrained.”
(2) “The missing task is not a naive return to pre-Copenhagen realism, because EPR, Bell, Kochen–Specker, and modern contextuality results rule out large parts of the classical ontology Einstein hoped to preserve. The real task is to construct a post-Bell ontology: one that explains quantum phenomena, measurement, entanglement, and spacetime without hiding behind operational formalism or unconstrained mathematical elegance.”
This I’d argue says that the tests of the Bell inequality violations are the most important experiments especially Aspect/Dalibard/Roger (1982) and Hensen et al. (2015) and something in 2023 (need to read that one). This implies ontological progress is held up by experimental insufficiencies, and this may not be resolvable without unforeseen technological developments that sit in sci-fi space at present.
P.S. A nice explanatory comparison is Bell and Turing (instead of the ML example), as their structural flavor (no-go-theorem vs contradiction) is similar:
Turing: no machine can decide the halting behavior of all machines on all inputs.
Bell: no theory satisfying the Bell-local assumptions can reproduce all quantum correlations observed in Bell-type experiments.
(The difference being that Turing’s theorem is a pure mathematical impossibility result over a precisely defined class of machines, while Bell’s theorem is a mathematical constraint on a physically motivated class of theories, with experiments as source-of-truth instead of mathematical proof. But this supports your position since Turing rules out total computable halting deciders, while Bell only rules out Bell-local hidden-variable theories satisfying measurement independence and ordinary probability constraints.)
Can you briefly explain how the debates refute the basic argument? It's a somewhat interesting comparison he makes, even if AI was used to write that doesn't necessarily make the argument less interesting. I do agree that the end seems like motivated reasoning.
Physics is so deep in epicycles now, and without observations to force people to sacrifice their numerically accurate dumpster fire on the altar of parsimony, we may never progress.