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- [day of the dalek] Ashes in the Fall
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Tuesday January 14- Scientists Just Excavated An Unprecedented Specimen From Antarctica (8)
- TSMC's Arizona Fab 21 is Already Making 4nm Chips - Yield and Quality Reportedly on Par With Taiwan (16)
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Monday January 13- De-smarting the Marshall Uxbridge (6)
- Velvet Ants Have The Swiss Army Knife Of Venoms (2)
- Researcher Turns Insecure License Plate Cameras Into Open Source Surveillance Tool (24)
- Inside the War Against Headlight Brightness (64)
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Sunday January 12- It's Remarkably Easy to Inject New Medical Misinformation Into LLMs (16)
- Former MoviePass CEO Pleads Guilty to Fraud, Faces Up to 25 Years in Prison (14)
- Kicking Datacenters' Drinking Habit is Nearly Impossible (10)
- Kids Can't Use Computers... and This is Why It Should Worry You (2013) (55)
- Engineer Creates OpenAI-Powered Robotic Sentry Rifle (9)
- AI Unveils Strange Chip Designs, While Discovering New Functionalities (18)
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Archive Link: https://archive.is/LxGQ6
The refrigerated section at the flagship Walgreens on Chicago's Magnificent Mile was glowing with frozen food and bottled drinks, but not for long. Where the fridge cases were previously lined with simple glass doors, there were door-size computer screens instead. These "smart doors" obscured shoppers' view of the fridges' actual contents, replacing them with virtual rows of the Gatorades, Bagel Bites and other goods it promised were inside. The digital displays had a distinct advantage over regular glass, at least for the retailer: ads. When proximity sensors detected passersby, the fridge doors started playing short videos hawking Doritos or urging customers to check out with Apple Pay. If this sounds disruptive—in the ordinary sense of the word, not Silicon Valley's—that might have seemed a generous description in December 2023, when all the screens went blank.
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Most people here probably came from slashdot originally, so it won't need much introduction.
The owners of the site have decided to go all in on advertising enshittification, and anyone visiting any page with an adblocker installed will be greeted by several seconds of JS bloat trying to inject ads past your adblocker, followed by a message box that demands you disable your adblocker, and forces a page reload.
[Editor's Comment: DotDalek has been in email contact with "whipslash" on Slashdot and he has asked me to give you a summary of part of the email exchange:
Quote: I posted some information about this in my recent comments, with links to comments by whipslash (Logan Abbott, the guy who owns Slashdot) and my own personal communication with him. Ad blockers aren't banned on Slashdot, whipslash apologized and removed the advertiser who caused this, and he at least seems open to allowing users to subscribe again. As I said, a subscription-model is a much better way to raise revenue than inserting more ads. We'll see if Slashdot actually offers subscriptions to raise revenue, but whipslash seemed open to it. If you're going to run the story that was in your queue, I ask you to please make sure that it includes accurate information. Incidentally, this is why SN needs people to subscribe, and it would be a good opportunity to further remind people of this. End Quote ]
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https://phys.org/news/2025-01-ancient-genomes-reveal-iron-age.html
An international team of geneticists, led by those from Trinity College Dublin, has joined forces with archaeologists from Bournemouth University to decipher the structure of British Iron Age society, finding evidence of female political and social empowerment.
The researchers seized upon a rare opportunity to sequence DNA from many members of a single community. They retrieved over 50 ancient genomes from a set of burial grounds in Dorset, southern England, in use before and after the Roman Conquest of AD 43. The results revealed that this community was centered around bonds of female-line descent.
Dr. Lara Cassidy, Assistant Professor in Trinity's Department of Genetics, led the study that has been published in Nature.
She said, "This was the cemetery of a large kin group. We reconstructed a family tree with many different branches and found most members traced their maternal lineage back to a single woman, who would have lived centuries before. In contrast, relationships through the father's line were almost absent.
"This tells us that husbands moved to join their wives' communities upon marriage, with land potentially passed down through the female line. This is the first time this type of system has been documented in European prehistory and it predicts female social and political empowerment.
"It's relatively rare in modern societies, but this might not always have been the case."
Incredibly, the team found that this type of social organization, termed "matrilocality," was not just restricted to Dorset. They sifted through data from prior genetic surveys of Iron Age Britain and, although sample numbers from other cemeteries were smaller, they saw the same pattern emerge again and again.
Journal Reference: Lara Cassidy et al., Continental influx and pervasive matrilocality in Iron Age Britain, Nature (2025). DOI: 10.1038/s41586-024-08409-6. www.nature.com/articles/s41586-024-08409-6
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In 2023, AI researchers at Meta interviewed 34 native Spanish and Mandarin speakers who lived in the US but didn't speak English. The goal was to find out what people who constantly rely on translation in their day-to-day activities expect from an AI translation tool. What those participants wanted was basically a Star Trek universal translator or the Babel Fish from the Hitchhiker's Guide to the Galaxy: an AI that could not only translate speech to speech in real time across multiple languages, but also preserve their voice, tone, mannerisms, and emotions. So, Meta assembled a team of over 50 people and got busy building it.
[...] AI translation systems today are mostly focused on text, because huge amounts of text are available in a wide range of languages thanks to digitization and the Internet.
[...] AI translators we have today support an impressive number of languages in text, but things are complicated when it comes to translating speech.
[...] A few systems that can translate speech-to-speech directly do exist, but in most cases they only translate into English and not in the opposite way.
[...] to pull off the Star Trek universal translator thing Meta's interviewees dreamt about, the Seamless team started with sorting out the data scarcity problem.
[...] Warren Weaver, a mathematician and pioneer of machine translation, argued in 1949 that there might be a yet undiscovered universal language working as a common base of human communication.
[...] Machines do not understand words as humans do. To make sense of them, they need to first turn them into sequences of numbers that represent their meaning.
[...] When you vectorize aligned text in two languages like those European Parliament proceedings, you end up with two separate vector spaces, and then you can run a neural net to learn how those two spaces map onto each other.
But the Meta team didn't have those nicely aligned texts for all the languages they wanted to cover. So, they vectorized all texts in all languages as if they were just a single language and dumped them into one embedding space called SONAR (Sentence-level Multimodal and Language-Agnostic Representations).
[...] The team just used huge amounts of raw data—no fancy human labeling, no human-aligned translations. And then, the data mining magic happened.
SONAR embeddings represented entire sentences instead of single words. Part of the reason behind that was to control for differences between morphologically rich languages, where a single word may correspond to multiple words in morphologically simple languages. But the most important thing was that it ensured that sentences with similar meaning in multiple languages ended up close to each other in the vector space.
[...] The Seamless team suddenly got access to millions of aligned texts, even in low-resource languages, along with thousands of hours of transcribed audio. And they used all this data to train their next-gen translator.
[...] The Nature paper published by Meta's Seamless ends at the SEAMLESSM4T models, but Nature has a long editorial process to ensure scientific accuracy. The paper published on January 15, 2025, was submitted in late November 2023. But in a quick search of the arXiv.org, a repository of not-yet-peer-reviewed papers, you can find the details of two other models that the Seamless team has already integrated on top of the SEAMLESSM4T: SeamlessStreaming and SeamlessExpressive, which take this AI even closer to making a Star Trek universal translator a reality.
SeamlessStreaming is meant to solve the translation latency problem.
[...] SeamlessStreaming was designed to take this experience a bit closer to what human simultaneous translator do—it translates what you're saying as you speak in a streaming fashion. SeamlessExpressive, on the other hand, is aimed at preserving the way you express yourself in translations.
[...] Sadly, it still can't do both at the same time; you can only choose to go for either streaming or expressivity, at least at the moment. Also, the expressivity variant is very limited in supported languages—it only works in English, Spanish, French, and German. But at least it's online so you can go ahead and give it a spin.
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https://spectrum.ieee.org/reversible-computing
Michael Frank has spent his career as an academic researcher working over three decades in a very peculiar niche of computer engineering. According to Frank, that peculiar niche's time has finally come. "I decided earlier this year that it was the right time to try to commercialize this stuff," Frank says. In July 2024, he left his position as a senior engineering scientist at Sandia National Laboratories to join a startup, U.S. and U.K.-based Vaire Computing.
Frank argues that it's the right time to bring his life's work—called reversible computing—out of academia and into the real world because the computing industry is running out of energy. "We keep getting closer and closer to the end of scaling energy efficiency in conventional chips," Frank says. According to an IEEE semiconducting industry road map report Frank helped edit, by late in this decade the fundamental energy efficiency of conventional digital logic is going to plateau, and "it's going to require more unconventional approaches like what we're pursuing," he says.
As Moore's Law stumbles and its energy-themed cousin Koomey's Law slows, a new paradigm might be necessary to meet the increasing computing demands of today's world. According to Frank's research at Sandia, in Albuquerque, reversible computing may offer up to a 4,000x energy-efficiency gain compared to traditional approaches.
"Moore's Law has kind of collapsed, or it's really slowed down," says Erik DeBenedictis, founder of Zettaflops, who isn't affiliated with Vaire. "Reversible computing is one of just a small number of options for reinvigorating Moore's Law, or getting some additional improvements in energy efficiency."
Vaire's first prototype, expected to be fabricated in the first quarter of 2025, is less ambitious—it is producing a chip that, for the first time, recovers energy used in an arithmetic circuit. The next chip, projected to hit the market in 2027, will be an energy-saving processor specialized for AI inference. The 4,000x energy-efficiency improvement is on Vaire's road map but probably 10 or 15 years out.
...
Intuitively, information may seem like an ephemeral, abstract concept. But in 1961, Rolf Landauer at IBM discovered a surprising fact: Erasing a bit of information in a computer necessarily costs energy, which is lost as heat. It occurred to Landauer that if you were to do computation without erasing any information, or "reversibly," you could, at least theoretically, compute without using any energy at all.Landauer himself considered the idea impractical. If you were to store every input and intermediate computation result, you would quickly fill up memory with unnecessary data. But Landauer's successor, IBM's Charles Bennett, discovered a workaround for this issue. Instead of just storing intermediate results in memory, you could reverse the computation, or "decompute," once that result was no longer needed. This way, only the original inputs and final result need to be stored.
Take a simple example, such as the exclusive-OR, or XOR gate. Normally, the gate is not reversible—there are two inputs and only one output, and knowing the output doesn't give you complete information about what the inputs were. The same computation can be done reversibly by adding an extra output, a copy of one of the original inputs. Then, using the two outputs, the original inputs can be recovered in a decomputation step.
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The Federal Trade Commission today, along with the Illinois and Minnesota Attorneys General, sued agricultural equipment manufacturer Deere & Company (Deere) over its use of unfair practices that have driven up equipment repair costs for farmers while also depriving farmers of the ability to make timely repairs on critical farming equipment, including tractors.
The FTC's complaint alleges that, for decades, Deere's unlawful practices have limited the ability of farmers and independent repair providers to repair Deere equipment, forcing farmers to instead rely on Deere's network of authorized dealers for necessary repairs. This unfair steering practice has boosted Deere's multi-billion-dollar profits on agricultural equipment and parts, growing its repair parts business while burdening farmers with higher repair costs, the FTC's complaint alleges.
Note: Not directly computer related, but a win, any win, against this kind of "no repair ability for you" mentality will possibly have a trickle down effect on other "no repair for you" mentality businesses.
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from the CALEA3-a-back-door-by-any-other-name dept.
The European Parliament's petition service is hosting Petition No 0729/2024 which is on the implementation of an EU-Linux operating system in public administrations across all EU countries.
[Editor's Note: The link works in some browsers but not in others.]
The petitioner calls for the European Union to actively develop and implement a Linux-based operating system, termed 'EU-Linux', across public administrations in all EU Member States. This initiative aims to reduce dependency on Microsoft products, ensuring compliance with the General Data Protection Regulation (GDPR), and promoting transparency, sustainability, and digital sovereignty within the EU. The petitioner emphasizes the importance of using open-source alternatives to Microsoft 365, such as LibreOffice and Nextcloud, and suggests the adoption of the E/OS mobile operating system for government devices. The petitioner also highlights the potential for job creation in the IT sector through this initiative.
What do soylentils see as the advantages or disadvantages of Yet Another Distro? Would the EU be better off throwing its weight behind further development of an existing independent distro or two? Which national or regional initiatives already exist?
Previously:
(2023) Open Source Bodies Say to EU that Cyber Resilience Act Could Have 'Chilling Effect' on Software
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https://www.ganssle.com/debouncing.htm
The beer warms a bit as you pound the remote control. Again and again, temper fraying, you click the "channel up" key until the TV finally rewards your efforts. But it turns out channel 345 is playing Jeopardy so you again wave the remote in the general direction of the set and continue fiddling with the buttons.
Some remotes work astonishingly well, even when you bounce the beam off three walls before it impinges on the TV's IR detector. Others don't. One vendor told me reliability simply isn't important as users will subconsciously hit the button again and again till the channel changes.
When a single remote press causes the tube to jump two channels, we developers know lousy debounce code is at fault. The FM radio on my sailboat has a tuning button that advances too far when I hit it hard. The usual suspect: bounce.
When the contacts of any mechanical switch bang together they rebound a bit before settling, causing bounce. Debouncing, of course, is the process of removing the bounces, of converting the brutish realities of the analog world into pristine ones and zeros. Both hardware and software solutions exist, though by far the most common are those done in a snippet of code.
Surf the net to sample various approaches to debouncing. Most are pretty lame. Few are based on experimental bounce parameters. A medley of anecdotal tales passed around the newsgroups substitute for empirical evidence.
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Developer and reverse engineer, Scott Percival, took a long look at a bug in the Oregon Trail game's river crossings.
If you're into retro computing, you probably know about Oregon Trail; a simulation of the hardships faced by a group of colonists in 1848 as they travel by covered wagon from Independence Missouri to the Willamette Valley in Oregon. The game was wildly successful in the US education market, with the various editions selling 65 million copies. What you probably don't know is the game's great untold secret.
Two years ago, Twitch streamer albrot discovered a bug in the code for crossing rivers. One of the options is to "wait to see if conditions improve"; waiting a day will consume food but not recalculate any health conditions, granting your party immortality.
Whether the game depicts an adventure or an invasion depends on perspective. The original Oregon Trail video game from the Minnesota Educational Computing Consortium (MECC) for the Apple II series took on a life of its own and grew and changed over several decades.
Previously:
(2024) Apple is Turning The Oregon Trail into a Movie
(2016) "You have died of dysentery" -- The Oregon Trail in Computer Class
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Kicking the year 2025 off with some predictions. I guess we can return to this in December to see how far they have progressed into fantasy land.
https://www.technologyreview.com/2025/01/03/1109178/10-breakthrough-technologies-2025/
01. Vera C. Rubin Observatory in Chile
02. Generative AI search
03. Small Language Models
04. Cattle burping remedies
05. Robotaxis
06. Cleaner jet fuel
07. Fast-learning robots
08. Long-acting HIV prevention meds
09. Green steel
10. Stem-cell therapies that work
Then they add some potential runner-ups such as Brain-computer interfaces, Methane-detecting satellites, Hyperrealistic deepfakes and Continuous glucose monitors.
https://technologymagazine.com/articles/top-10-trends-of-2025
01. Agentic AI
02. AI governance platforms
03. Disinformation security
04. Postquantum cryptography
05. Ambient invisible intelligence
06. Energy-efficient computing
07. Hybrid computing
08. Spatial computing
09. Polyfunctional robots
10. Neurological enhancement
We are already post-quantum? I wasn't aware that we even had any meaningful utilization of actual working quantum cryptography. Is this the Quantum Leap?
Also I can't help to notice that there seems to be a lot of AI fantasies involved in the predictions for the coming months.
Do you care to make any 2025 predictions of the next big thing?
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Arthur T Knackerbracket has processed the following story:
Our findings were based on a survey of 779 U.S. teachers conducted in May 2022, along with subsequent focus groups that took place in the fall of that year. Our study was peer-reviewed and published in April 2024.
During the COVID-19 pandemic, when schools across the country were under lockdown orders, schools adopted new technologies to facilitate remote learning during the crisis. These technologies included learning management systems, which are online platforms that help educators organize and keep track of their coursework.
We were puzzled to find that teachers who used a learning management system such as Canvas or Schoology reported higher levels of burnout. Ideally, these tools should have simplified their jobs. We also thought these systems would improve teachers’ ability to organize documents and assignments, mainly because they would house everything digitally, and thus, reduce the need to print documents or bring piles of student work home to grade.
But in the follow-up focus groups we conducted, the data told a different story. Instead of being used to replace old ways of completing tasks, the learning management systems were simply another thing on teachers’ plates.
A telling example was seen in lesson planning. Before the pandemic, teachers typically submitted hard copies of lesson plans to administrators. However, once school systems introduced learning management systems, some teachers were expected to not only continue submitting paper plans but to also upload digital versions to the learning management system using a completely different format.
Asking teachers to adopt new tools without removing old requirements is a recipe for burnout.
[...] If new technology is being adopted to help teachers do their jobs, then school leaders need to make sure it will not add extra work for them. If it adds to or increases teachers’ workloads, then adding technology increases the likelihood that a teacher will burn out. This likely compels more teachers to leave the field.
Schools that implement new technologies should make sure that they are streamlining the job of being a teacher by offsetting other tasks, and not simply adding more work to their load.
The broader lesson from this study is that teacher well-being should be a primary focus with the implementation of schoolwide changes.
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Arthur T Knackerbracket has processed the following story:
Former crypto miner James Howells admits he is 'very upset' at the ruling.
The legal arguments over $750M worth of Bitcoin buried in a Welsh dump have ended unhappily for a man who lost his crypto HDD in the trash 12 years ago. On Thursday, Judge Keyser KC of the British High Court ruled James Howells' case had no reasonable chance of success at a trial. Therefore, the court sided with the council and struck out Mr Howell's legal action, in which he had hoped to gain legal access to the dump for excavation or get £495M ($604M) in compensation from the council.
We last wrote about Mr Howells's trials and tribulations in October last year, when he, backed by a consortium, decided to sue the local council "because they won't give me back my bin (trash) bag." At that time, the lost 8,000 Bitcoins were valued at $538M; today, they would be worth over $750M.
Howells' unfortunate predicament began in August 2013, when he discovered his girlfriend had taken his old laptop hard drive, which contained a wallet with Bitcoins he had mined back in 2009, to the council dump. However, Howells admits he put the device in the trash after clearing some old office bits and pieces. According to Howells, you can read precisely what happened in an excerpt from the ruling, reproduced below.
There are two major legal problems concerning this treasure in the trash. First, under UK law, anything you throw in the garbage to be collected by the council becomes the council's legal property. Second, Howells' case falls foul of the UK's six-year statute of limitations. Although the lost Bitcoins were known about in 2013, Howells only decided to sue the council in 2024.
The BBC shared some post-judgment comments from Howells in a report yesterday. In them, he admitted he was "very upset" about the decision. His statements didn't address that the council now owns the HDD/data. However, he had some interesting arguments to counter the six-year statute of limitations mentioned by the judge.
Howells told the BBC that he had been "trying to engage with Newport City Council in every way which is humanly possible for the past 12 years." This could reasonably explain the delay in legal action. He also suggested that if he had made it to trial, "there was so much more that could have been explained" and that it would have made a difference in the legal decision.
A distraught Howells repeated his offer to share the $750M crypto treasure with the council and donate 10% to the local community.
Previous: UK Man Sues City Over Discarded Bitcoin-filled Hard Drive
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https://phys.org/news/2025-01-paleolithic-ingenuity-year-3d-france.html
Researchers have discovered what may be the world's oldest three-dimensional map, located within a quartzitic sandstone megaclast in the Paris Basin. The research is published in the Oxford Journal of Archaeology.
The Ségognole 3 rock shelter, known since the 1980s for its artistic engravings of two horses in a Late Paleolithic style on either side of a female pubic figuration, has now been revealed to contain a miniature representation of the surrounding landscape.
Dr. Anthony Milnes from the University of Adelaide's School of Physics, Chemistry and Earth Sciences, participated in the research led by Dr. Médard Thiry from the Mines Paris—PSL Center of Geosciences.
Dr. Thiry's earlier research, following his first visit to the site in 2017, established that Paleolithic people had "worked" the sandstone in a way that mirrored the female form, and opened fractures for infiltrating water into the sandstone that nourished an outflow at the base of the pelvic triangle.
New research suggests that part of the floor of the sandstone shelter which was shaped and adapted by Paleolithic people around 13,000 years ago was modeled to reflect the region's natural water flows and geomorphological features.
"What we've described is not a map as we understand it today—with distances, directions, and travel times—but rather a three-dimensional miniature depicting the functioning of a landscape, with runoff from highlands into streams and rivers, the convergence of valleys, and the downstream formation of lakes and swamps," Dr. Milnes explains.
"For Paleolithic peoples, the direction of water flows and the recognition of landscape features were likely more important than modern concepts like distance and time.
"Our study demonstrates that human modifications to the hydraulic behavior in and around the shelter extended to modeling natural water flows in the landscape in the region around the rock shelter. These are exceptional findings and clearly show the mental capacity, imagination and engineering capability of our distant ancestors."
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from the just-give-me-points-ignition-and-a-carburetor dept.
You may have heard about Teslas equipped with what is styled "Full Self-Driving" capability bricking – that is, going inert – as a result of a computer failure. "Tesla drivers are reporting computer failures after driving off with their brand-new cars over just the first few tens to hundreds of miles," says the web site Elektrek, which covers EVs and EV-related issues. "Wide-ranging features powered by the computer, like active safety features, cameras, and even GPS, navigation, and range estimations, fail to work":
Are these Teslas safe to drive if their safety features aren't working? They are certainly risky to drive, if their range estimation systems aren't working – because you might not make it where you were headed. You might end up bricked – by the side of the road – and it's no easy thing to walk down the road to the closest "fast" charger for a jerry can of kilowatt-hours.
[...] But that's not the really interesting thing – about bricking Teslas. More finely, about Teslas that brick because they're working properly. More finely than that, Tesla can brick its cars anytime it likes.
[...] Legally, the person whose name is on the title is the "owner" of the device. But is he, really, given that what he considers to be "his" device can be controlled remotely at any time by Tesla? The fact that Tesla doesn't generally exert this control is immaterial.
What is material is the fact that Tesla could.
An example of this was made public a couple of years ago, when Tesla transmitted an update to its devices that were "owned" – so to speak – by people living in the path of a hurricane that was coming. Tesla very nicely increased the range of these devices, so as to allow the "owners" to have a better chance of driving far enough away to escape the hurricane. But Tesla could just as easily decide to be not-so-nice and send an update to reduce the range or not allow the device to be driven, at all. This is a fact, in terms of what's possible. That it is not yet actual is merely a kind of privilege or sufferance that can be revoked at will.
[...] That thing being you are not really in control of the device, except to the extent that Tesla allows. Tesla also knows exactly how you use its device, too. And where and when. It's not just Teslas, either. It's all new vehicles – which might as well be devices.
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Rational or Not? This Basic Math Question Took Decades to Answer.:
In June 1978, the organizers of a large mathematics conference in Marseille, France, announced a last-minute addition to the program. During the lunch hour, the mathematician Roger Apéry would present a proof that one of the most famous numbers in mathematics — "zeta of 3," or ζ(3), as mathematicians write it — could not be expressed as a fraction of two whole numbers. It was what mathematicians call "irrational."
Conference attendees were skeptical. The Riemann zeta function is one of the most central functions in number theory, and mathematicians had been trying for centuries to prove the irrationality of ζ(3) — the number that the zeta function outputs when its input is 3. Apéry, who was 61, was not widely viewed as a top mathematician. He had the French equivalent of a hillbilly accent and a reputation as a provocateur. Many attendees, assuming Apéry was pulling an elaborate hoax, arrived ready to pay the prankster back in his own coin. As one mathematician later recounted, they "came to cause a ruckus."
The lecture quickly descended into pandemonium. With little explanation, Apéry presented equation after equation, some involving impossible operations like dividing by zero. When asked where his formulas came from, he claimed, "They grow in my garden." Mathematicians greeted his assertions with hoots of laughter, called out to friends across the room, and threw paper airplanes.
But at least one person — Henri Cohen, now at the University of Bordeaux — emerged from the talk convinced that Apéry was correct. Cohen immediately began to flesh out the details of Apéry's argument; within a couple of months, together with a handful of other mathematicians, he had completed the proof. When he presented their conclusions at a later conference, a listener grumbled, "A victory for the French peasant."
Once mathematicians had, however reluctantly, accepted Apéry's proof, many anticipated a flood of further irrationality results. Irrational numbers vastly outnumber rational ones: If you pick a point along the number line at random, it's almost guaranteed to be irrational. Even though the numbers that feature in mathematics research are, by definition, not random, mathematicians believe most of them should be irrational too. But while mathematicians have succeeded in showing this basic fact for some numbers, such as π and e, for most other numbers it remains frustratingly hard to prove. Apéry's technique, mathematicians hoped, might finally let them make headway, starting with values of the zeta function other than ζ(3).
"Everyone believed that it [was] just a question of one or two years to prove that every zeta value is irrational," said Wadim Zudilin of Radboud University in the Netherlands.
But the predicted flood failed to materialize. No one really understood where Apéry's formulas had come from, and when "you have a proof that's so alien, it's not always so easy to generalize, to repeat the magic," said Frank Calegari of the University of Chicago. Mathematicians came to regard Apéry's proof as an isolated miracle.
But now, Calegari and two other mathematicians — Vesselin Dimitrov of the California Institute of Technology and Yunqing Tang of the University of California, Berkeley — have shown how to broaden Apéry's approach into a much more powerful method for proving that numbers are irrational. In doing so, they have established the irrationality of an infinite collection of zeta-like values.
Jean-Benoît Bost of Paris-Saclay University called their finding "a clear breakthrough in number theory."
Mathematicians are enthused not just by the result but also by the researchers' approach, which they used in 2021 to settle a 50-year-old conjecture about important equations in number theory called modular forms. "Maybe now we have enough tools to push this kind of subject way further than was thought possible," said François Charles of the École Normale Supérieure in Paris. "It's a very exciting time."
Whereas Apéry's proof seemed to come out of nowhere — one mathematician described it as "a mixture of miracles and mysteries" — the new paper fits his method into an expansive framework. This added clarity raises the hope that Calegari, Dimitrov and Tang's advances will be easier to build on than Apéry's were.
"Hopefully," said Daniel Litt of the University of Toronto, "we'll see a gold rush of related irrationality proofs soon."
A Proof That Euler Missed
Since the earliest eras of mathematical discovery, people have been asking which numbers are rational. Two and a half millennia ago, the Pythagoreans held as a core belief that every number is the ratio of two whole numbers. They were shocked when a member of their school proved that the square root of 2 is not. Legend has it that as punishment, the offender was drowned.
The square root of 2 was just the start. Special numbers come pouring out of all areas of mathematical inquiry. Some, such as π, crop up when you calculate areas and volumes. Others are connected to particular functions — e, for instance, is the base of the natural logarithm. "It's a challenge: You give yourself a number which occurs naturally in math, [and] you wonder whether it's rational," Cohen said. "If it's rational, then it's not a very interesting number."
Many mathematicians take an Occam's-razor point of view: Unless there's a compelling reason why a number should be rational, it probably is not. After all, mathematicians have long known that most numbers are irrational.
Yet over the centuries, proofs of the irrationality of specific numbers have been rare. In the 1700s, the mathematical giant Leonhard Euler proved that e is irrational, and another mathematician, Johann Lambert, proved the same for π. Euler also showed that all even zeta values — the numbers ζ(2), ζ(4), ζ(6) and so on — equal some rational number times a power of π, the first step toward proving their irrationality. The proof was finally completed in the late 1800s.
But the status of many other simple numbers, such as π + e or ζ(5), remains a mystery, even now.
It might seem surprising that mathematicians are still grappling with such a basic question about numbers. But even though rationality is an elementary concept, researchers have few tools for proving that a given number is irrational. And frequently, those tools fail.
When mathematicians do succeed in proving a number's irrationality, the core of their proof usually relies on one basic property of rational numbers: They don't like to come near each other. For example, say you choose two fractions, one with a denominator of 7, the other with a denominator of 100. To measure the distance between them (by subtracting the smaller fraction from the larger one), you have to rewrite your fractions so that they have the same denominator. In this case, the common denominator is 700. So no matter which two fractions you start with, the distance between them is some whole number divided by 700 — meaning that at the very least, the fractions must be 1/700 apart. If you want fractions that are even closer together than 1/700, you'll have to increase one of the two original denominators.
Flip this reasoning around, and it turns into a criterion for proving irrationality. Suppose you have a number k, and you want to figure out whether it's rational. Maybe you notice that the distance between k and 4/7 is less than 1/700. That means k cannot have a denominator of 100 or less. Next, maybe you find a new fraction that allows you to rule out the possibility that k has a denominator of 1,000 or less — and then another fraction that rules out a denominator of 10,000 or less, and so on. If you can construct an infinite sequence of fractions that gradually rules out every possible denominator for k, then k cannot be rational.
Nearly every irrationality proof follows these lines. But you can't just take any sequence of fractions that approaches k — you need fractions that approach k quickly compared to their denominators. This guarantees that the denominators they rule out keep growing larger. If your sequence doesn't approach k quickly enough, you'll only be able to rule out denominators up to a certain point, rather than all possible denominators.
There's no general recipe for constructing a suitable sequence of fractions. Sometimes, a good sequence will fall into your lap. For example, the number e (approximately 2.71828) is equivalent to the following infinite sum:
$latex \frac{1}{1} + \frac{1}{1} + \frac{1}{2 \times 1} + \frac{1}{3 \times 2 \times 1} + \frac{1}{4 \times 3 \times 2 \times 1} + \cdots$.
If you halt this sum at any finite point and add up the terms, you get a fraction. And it takes little more than high school math to show that this sequence of fractions approaches e quickly enough to rule out all possible denominators.
But this trick doesn't always work. For instance, Apéry's irrational number, ζ(3), is defined as this infinite sum:
$latex \frac{1}{1^3} + \frac{1}{2^3} + \frac{1}{3^3} + \frac{1}{4^3} + \cdots$.
If you halt this sum at each finite step and add the terms, the resulting fractions don't approach ζ(3) quickly enough to rule out every possible denominator for ζ(3). There's a chance that ζ(3) might be a rational number with a larger denominator than the ones you've ruled out.
Apéry's stroke of genius was to construct a different sequence of fractions that do approach ζ(3) quickly enough to rule out every denominator. His construction used mathematics that dated back centuries — one article called it "a proof that Euler missed." But even after mathematicians came to understand his method, they were unable to extend his success to other numbers of interest.
Like every irrationality proof, Apéry's result instantly implied that a bunch of other numbers were also irrational — for example, ζ(3) + 3, or 4 × ζ(3). But mathematicians can't get too excited about such freebies. What they really want is to prove that "important" numbers are irrational — numbers that "show up in one formula, [then] another one, also in different parts of mathematics," Zudilin said.
Few numbers meet this standard more thoroughly than the values of the Riemann zeta function and the allied functions known as L-functions. The Riemann zeta function, ζ(x), transforms a number x into this infinite sum:
$latex \frac{1}{1^x} + \frac{1}{2^x} + \frac{1}{3^x} + \frac{1}{4^x} + \cdots$.
ζ(3), for instance, is the infinite sum you get when you plug in x = 3. The zeta function has long been known to govern the distribution of prime numbers. Meanwhile, L-functions — which are like the zeta function but have varying numerators — govern the distribution of primes in more complicated number systems. Over the past 50 years, L-functions have risen to special prominence in number theory because of their key role in the Langlands program, an ambitious effort to construct a "grand unified theory" of mathematics. But they also crop up in completely different areas of mathematics. For example, take the L-function whose numerators follow the pattern 1, −1, 0, 1, −1, 0, repeating. You get:
$latex \frac{1}{1^x} + \frac{-1}{2^x} + \frac{0}{3^x} + \frac{1}{4^x} + \frac{-1}{5^x} + \frac{0}{6^x} + \cdots$.
In addition to its role in number theory, this function, which we'll call L(x), makes unexpected cameos in geometry. For example, if you multiply L(2) by a simple factor, you get the volume of the largest regular tetrahedron with "hyperbolic" geometry, the curved geometry of saddle shapes.
Mathematicians have been mulling over L(2) for at least two centuries. Over the years, they have come up with seven or eight different ways to approximate it with sequences of rational numbers. But none of these sequences approach it quickly enough to prove it irrational.
Researchers seemed to be at an impasse — until Calegari, Dimitrov and Tang decided to make it the centerpiece of their new approach to irrationality.
A Proof That Riemann Missed
In an irrationality proof, you want your sequence of fractions to rule out ever-larger denominators. Mathematicians have a well-loved strategy for understanding such a sequence: They'll package it into a function. By studying the function, they gain access to an arsenal of tools, including all the techniques of calculus.
In this case, mathematicians construct a "power series" — a mathematical expression with infinitely many terms, such as 3 + 2x + 7x2 + 4x3 + ... — where you determine each coefficient by combining the number you're studying with one fraction in the sequence, according to a particular formula. The first coefficient ends up capturing the size of the denominators ruled out by the first fraction; the second coefficient captures the size of the denominators ruled out by the second fraction; and so on.
Roughly speaking, the coefficients and the ruled-out denominators have an inverse relationship, meaning that your goal — proving that the ruled-out denominators approach infinity — is equivalent to showing that the coefficients approach zero.
The advantage of this repackaging is that you can then try to control the coefficients using properties of the power series as a whole. In this case, you want to study which x-values make the power series "blow up" to infinity. The terms in the power series involve increasingly high powers of x, so unless they are paired with extremely small coefficients, large x-values will make the power series blow up. As a result, if you can show that the power series does not blow up, even for large values of x, that tells you that the coefficients do indeed shrink to zero, just as you want.
To bring an especially rich set of tools to bear on this question, mathematicians consider "complex" values for x. Complex numbers combine a real part and an imaginary part, and can be represented as points in a two-dimensional plane.
Imagine starting at the number zero in the complex number plane and inflating a disk until you bump into the first complex number that makes your power series explode to infinity — what mathematicians call a singularity. If the radius of this disk is large enough, you can deduce that the coefficients of the power series shrink to zero fast enough to imply that your number is irrational.
Apéry's proof and many other irrationality results can be rephrased in these terms, even though that's not how they were originally written. But when it comes to L(2), the disk is too small. For this number, mathematicians viewed the power series approach as a dead end.
But Calegari, Dimitrov and Tang saw a potential way through. A singularity doesn't always represent a final stopping point — that depends on what things look like when you hit the singularity. Sometimes the boundary of the disk hits a mass of singularities. If this happens, you're out of luck. But other times, there might be just a few isolated singularities on the boundary. In those cases, you might be able to inflate your disk into a bigger region in the complex plane, steering clear of the singularities.
That's what Calegari, Dimitrov and Tang hoped to do. Perhaps, they thought, the extra information contained in this larger region might enable them to get the control they needed over the power series' coefficients. Some power series, Calegari said, can have a "wonderful life outside the disk."
Over the course of four years, Calegari, Dimitrov and Tang figured out how to use this approach to prove that L(2) is irrational. "They developed a completely new criterion for deciding whether a given number is irrational," Zudilin said. "It's truly amazing."
As with Apéry's proof, the new method is a throwback to an earlier era, relying heavily on generalizations of calculus from the 1800s. Bost even called the new work "a proof that Riemann missed," referring to Bernhard Riemann, one of the towering figures of 19th-century mathematics, after whom the Riemann zeta function is named.
The new proof doesn't stop with L(2). We construct that number by replacing the 1s in the numerators of ζ(2) with a pattern of three repeating numbers: 1, −1, 0, 1, −1, 0 and so on. You can make an infinite collection of other ζ(2) variants with three repeating numerators — for instance, the repeating pattern 1, 4, 10, 1, 4, 10 ..., which produces the infinite sum
$latex \frac{1}{1^2} + \frac{4}{2^2} + \frac{10}{3^2} + \frac{1}{4^2} + \frac{4}{5^2} + \frac{10}{6^2} + \cdots$.
Every such sum, the researchers proved, is also irrational (provided it doesn't add up to zero). They also used their method to prove the irrationality of a completely different set of numbers made from products of logarithms. Such numbers were previously "completely out of reach," Bost said.
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