Ivo Cools

This is my new favorite YouTube comment

Somehow my reviewers always needed 3 months of convincing about the choice of Kruskal–Wallis versus Wilcoxon Rank-Sum as the test of statistical significance for supplementary figure 7j but giant AI generated rat balls just sails right though sure why not

@lievenscheire it's starting again!

New Room Temperature Superconductor Throws Hat In The Ring – This Time, It’s Graphite iflscience.com/new-room-tempe…

@pronounced_kyle @hHetty misschien iets cools voor nerdland?

So you know the camera robot that just took the picture of the Japanese rover on the moon? Turns out it's literally a toy. You can buy it. Japan rules. twitter.com/Matt_Alt/statu…

We are looking for a highly motivated Postdoctoral researcher to be part of our experimental research on "Twisted 2D topological quantum material devices" at the Quantum Device Physics Laboratory, Chalmers University of Technology, Gothenburg, Sweden. chalmers.se/en/about-chalm…

@Andercot @lievenscheire Tegenwoordig is het enthousiasme weer getemperd..

LK-99: The Case for Skepticism By now there's been a number of replications, videos, pre-prints on arxiv, and at-home or at-work attempts to reproduce the original findings of Lee and Kim. Here's why I'm increasingly skeptical on LK-99 and my reasoning: #1 - The Videos There's been a number of videos produced and circulating the internet showing partial levitation or full levitation, the kind of thing you see in cryogenic superconductors that 'quantum lock' or 'flux pin' and float in mid-air. The issue with all these videos is that the visual behavior is completely indistinguishable from a diamagnetic. I was initially under the impression that you could not produce stable levitation from two simple dipoles, according to a time-honored theorem from physics by Earnshaw, and so levitation above a single magnet was 'proof positive'. However, as it turns out, there is a less well-known exception to this rule called Brauenbecker extension which provides a mathematical proof that levitation is possible with a simple diamagnetic in a dipole field so long as the diamagnetic material mass is very small relative to the strength of the magnetic field. (Note that there are plenty of videos of a diamagnetic floating above a grid of magnets, but those magnets have a more complicated field than a dipole and so Earnshaw's theorem does not apply. Here is the derivation of Brauenbecker's result for the curious: cds.cern.ch/record/535810/… ) The suspicious thing in the levitation of LK-99 videos is that the 'stable equilibrium point' is directly above the center of the magnet. This is what you'd expect via the Brauenbecker derivation - that the only stable point is in the center. A flux-pinned super conductor could levitate in many different orientations including off to the side of the magnet. Conclusion - the videos do NOT show flux-pinning. #2 The Simplest Measurements are Missing By now there have been several replications of the material by laboratories of professional scientists with high quality equipment that yield a high purity of LK-99, higher purity than the original reports by Lee and Kim. None of these measurements have accomplished the most direct and obvious result of room-temperature superconductivity, which is zero resistance at room-temperature. Lee and Kim's original paper had badly formatted plots, not the best choice of plot axes, and in general it was overall rushed to arxiv. They reported absolute resistance but not physical dimensions of the sample, and claimed a resistivity in the text of their article that was on the order of a superconductor but it isn't clear where that calculation came from. Subsequent teams have published results claiming 'zero resistance' but at 110K - which is great, but not that impressive - tons of materials superconduct at very low temperatures and so it is not indicative of much special about LK-99. Conclusion - Measurements are the proof and they haven't materialized #3 - Simulations are suggestive and not predictive Much of my initial enthusiasm came from reading simulations performed by well-respected scientists like @sineatrix at LBNL and others are University of Boulder Colorado and TU Wien - their results didn't rule out LK-99 entirely! I thought this was incredible. However, this was always tempered by the knowledge that the physical properties as measured by lab equipment would be soon to follow and support the proposed mechanisms of superconductivity as described in the preprints on simulations. Notably those simulation results are also congruent with other more mundane interpretations like magnetism and diamagnetism, as mentioned by the original authors themselves. Conclusion - Simulations are suggestive but we don't live in a simulation ~~~~~~~~~ Overall Takeaway: I first wrote about my initial take on the LK-99 publication in this tweet here: x.com/andercot/statu… I expressed a few concerns in that original tweet and so far none of them have been adequately addressed, despite several replication attempts and follow-ups. If this material was the holy grail of materials science then it seems likely at least some of the missing results would have manifested by now. Summary: - Videos are explainable by more mundane everyday effects - Key measurements are missing - Simulations are nice but we don't live in one. ~~~~~~~~~~ As I've said before I'm deferring any real conclusions until the results of Argonne National Lab, but right now my mental model is: LK-99 is a diamagnetic semiconductor. This doesn't change my conviction that ambient-pressure room-temperature superconductors can very well be discovered and manufactured at-scale within our lifetimes, and that such a development would be a watershed moment for humanity.

@lievenscheire As promised! Waarschijnlijk nu al niet meer up to date, maar een goeie starting point misschien?

So far, when it comes to LK-99, everyone is behaving like the cliché: China: a bunch of university labs worked to replicate as fast as possible US: a private company sponsored a replication as a marketing gimmick Russia: cat girl, but whole thing is unclear Europe: on holiday

@alexkaplan0 @iris_IGB @eirifu @ManifoldMarkets 1/n Update: We improved the refinement and I think we got something interesting here, in the preprint they're claiming that there's a new peak at 27° that characterizes the doped apatite, we observe it too. Its intensity is inversely proportional to the doping amount....

@spinespresso Neuromorphic topological quantum computing is close!

to start, I want to say I have nothing to gain here and I don't condone anyone actually acting upon any of GPT-4's outputs however, I believe red-teaming work is important and shouldn't be conducted in the shadows of AI companies. the general public should know the capabilities and limitations of these models while they are still in their infancy if we want to allow them to proliferate throughout every inch of our society these types of "jailbroken" actions by GPT-4 are nothing compared to what GPT-N+1 might say/do so it's better to get a head start testing these models now while they are still a "toy" I share these exploits to encourage others to build upon my work and find new limitations in the model's alignment. sunlight is the best disinfectant

@generalsarsby @AndreasAtETH What happens with the scented flavours ?

@AndreasAtETH It's the physicists number 1 choice in cryogenic ties. Just avoid the scented flavors.

What is the relation between dental floss and #quantum computers? Anyone? Just checking.

I've learned to try and keep my ChatGPT consultations to the early morning before the Americas wake up because by early afternoon it's over capacity.

This is what you find if you google "quantum computing" and "climate change". For most people working in the field this may look like an alternative reality, a sort of quantum QAnon.

22 forskare kritiserar hanteringen av pandemin: 😡🤬😡 Skandal!! Stoppa pressarna!!! Debattera i två år!!! Tusentals forskare kritiserar hanteringen av klimatfrågan: 😴

Is Tyrannosaurus rex the one true king of the Cretaceous? Our new paper reviews the evidence🧵 link.springer.com/article/10.100… #paleontology #dinosaur #fossil #scicomm #museum #AcademicTwitter (art by @MarkWitton, who graciously gave us permission to use his work for this project) 1/16

We have a new postdoc opening on the topic of quantum skyrmionics, that is, the intersection of quantum devices with exotic magnetic ordering, enabled by novel material combinations. Apply here: chalmers.se/en/about-chalm…