Apple just announced a line-up of five new games coming to Apple Arcade in the coming weeks, including WHAT THE CLASH?, a new party game from the team behind WHAT THE GOLF? and WHAT THE CAR?. Here’s what’s coming. Five new games are coming to Apple Arcade on Thursday, May 1. Here’s the full line-up: As you can see from the + that’s appended to three out of five titles, the majority of these games have existing counterparts on the App Store, but the + means this Arcade version comes with the benefits of being ad-free and in-app purchase-free. WHAT THE CLASH? is the clear highlight, hailing from Triband who has already gained notoriety on Apple Arcade for its prior games, WHAT THE GOLF? and WHAT THE CAR?. Here’s the game description: Play solo or challenge friends to one-on-one battles in this hilarious party game. Players unlock modifier cards to create absurd combos like giraffle, toasty archery, sticky tennis, milk the fish, and more. They’ll climb the leaderboards, enter tournaments, or find new card combinations to make each match a chaotic and fun surprise with quirky twists. With simple touch controls, everyone plays as The Hand, a charming and stretchy hand with legs that players can customize with hundreds of combinations of unlockable items like eye patches, dresses, and earrings. Competitors will have to outplay and outgoof their opponents as they go hand-to-hand with family and friends in some seriously silly showdowns. Overall it seems like a slightly slower than average month for new Arcade releases, but WHAT THE CLASH? looks like it could offer an especially good time. Apple Arcade is available as a standalone service for $6.99/month or included in the Apple One bundle. It includes access to over 200 games with no ads or in-app purchases. Best iPhone accessories Add 9to5Mac to your Google News feed.  FTC: We use income earning auto affiliate links. More.You’re reading 9to5Mac — experts who break news about Apple and its surrounding ecosystem, day after day. Be sure to check out our homepage for all the latest news, and follow 9to5Mac on Twitter, Facebook, and LinkedIn to stay in the loop. Don’t know where to start? Check out our exclusive stories, reviews, how-tos, and subscribe to our YouTube channel

Elon Musk and his Department of Government of Efficiency are tearing through the Social Security Administration, vowing to root out fraud and to rewrite the entire system's code in a matter of months. And behind the scenes, they're also gutting the teams that run it, leaving employees terrified that it'll be sent into a "death spiral.""Until they get rid of DOGE and the person in office right now, and the Republicans actually get a backbone and stand up for something for once in their lives, things are just going to be complete chaos," a longtime worker at the agency . "That's really the best word to describe SSA right now, just complete, utter chaos."Mirroring the fate of other agencies, the changes to the SSA will be sweeping and crushing. Under the Trump administration's directive, the SSA is slated to eliminate over 7,000 employees, reducing its total workforce to around 50,000.This jeopardizes the stability of the largest government program in the US, dwarfing even Medicare. Every month, around 69 million Americans receive Social Security benefits. That amounts to over $1.6 trillion being doled out per year.The program is overwhelmingly popular across all virtually all demographics — but Trump and Musk's ruthless gutting of the federal government has shown that there are no sacred cows in this new paradigm. Musk infamously called Social Security the "biggest Ponzi Scheme of all time" — this coming from a guy who has literally been accused of perpetrating a crypto pyramid scheme. Seemingly, it doesn't matter that it's backbone of most Americans' retirement planning."You're going to see a wholesale collapse in the agency's service structure," Rich Couture, a spokesperson for the American Federation of Government Employee's Social Security Administration general committee, a union that represents the vast majority of the agency's employees, told the Guardian. "Call wait times will skyrocket, wait times for appointments, processing times, all of it going to skyrocket because there won't be enough people to do the jobs, which opens the door to privatization."To Couture, the size of the workforce reduction is arbitrary. "It has never been explained with any degree of clarity how they came up with that figure," he told the newspaper. "What's being served by that by a loss of 7,000 jobs? How does any of that supposedly make this operation more efficient?"The anonymous SSA employee echoed the rudderlessness of the whole operation. "No one knows what's going on," the employee said. "They're just coming up with ideas at the top of their head."While all this is happening, DOGE staff want to migrate the entire SSA's computer system, written in the ancient COBOL programming language, onto a new platform written in a modern language like Java in just a matter of months, — something that experts say would take years to do properly. With disruptions to the system itself, along with thousands of workers getting kicked out the door, the whirlwind changes run an extreme risk of blocking people's social security payments. And if that happens, good luck getting someone on the phone, or seeing someone in person, or getting help online. Since the DOGE purge, phone helplines have been shut down, with Musk claiming they're a vector of fraud. Dozens of SSA offices have been targeted for closure. And the website that aging seniors are supposed to figure out to use now keeps crashing.More on Trump administration: Elon Musk Breaks Rank, Rages Against Donald Trump's TariffsShare This Article

Apr 08, 2025Ravie LakshmananBrowser Security / Malware The Computer Emergency Response Team of Ukraine (CERT-UA) has revealed a new set of cyber attacks targeting Ukrainian institutions with information-stealing malware. The activity is aimed at military formations, law enforcement agencies, and local self-government bodies, particularly those located near Ukraine's eastern border, the agency said. The attacks involve distributing phishing emails containing a macro-enabled Microsoft Excel spreadsheet (XLSM), which, when opened, facilities the deployment of two pieces of malware, a PowerShell script taken from the PSSW100AVB ("Powershell Scripts With 100% AV Bypass") GitHub repository that opens a reverse shell, and a previously undocumented stealer dubbed GIFTEDCROOK. "File names and email subject lines reference relevant and sensitive issues such as demining, administrative fines, UAV production, and compensation for destroyed property," CERT-UA said. "These spreadsheets contain malicious code which, upon opening the document and enabling macros, automatically transforms into malware and executes without the user's knowledge." Written in C/C++, GIFTEDCROOK facilitates the theft of sensitive data from web browsers like Google Chrome, Microsoft Edge, and Mozilla Firefox, such as cookies, browsing history, and authentication data. The email messages are sent from compromised accounts, often via the web interface of email clients, to lend the messages a veneer of legitimacy, and trick prospective victims into opening the documents. CERT-UA has attributed the activity to a threat cluster UAC-0226, although it has not been linked to a specific country. The development comes as a suspected Russia-nexus espionage actor dubbed UNC5837 has been linked to a phishing campaign targeting European government and military organizations in October 2024. "The campaign employed signed .RDP file attachments to establish Remote Desktop Protocol (RDP) connections from victims' machines," the Google Threat Intelligence Group (GTIG) said. "Unlike typical RDP attacks focused on interactive sessions, this campaign creatively leveraged resource redirection (mapping victim file systems to the attacker servers) and RemoteApps (presenting attacker-controlled applications to victims)." It's worth noting that the RDP campaign was previously documented by CERT-UA, Amazon Web Services, and Microsoft in October 2024 and subsequently by Trend Micro in December. CERT-UA is tracking the activity under the name UAC-0215, while the others have attributed it to the Russian state-sponsored hacking group APT29. The attack is also notable for the likely use of an open-source tool called PyRDP to automate malicious activities such as file exfiltration and clipboard capture, including potentially sensitive data like passwords. "The campaign likely enabled attackers to read victim drives, steal files, capture clipboard data (including passwords), and obtain victim environment variables," the GTIG said in a Monday report. "UNC5837's primary objective appears to be espionage and file stealing." In recent months, phishing campaigns have also been observed using fake CAPTCHAs and Cloudflare Turnstile to distribute Legion Loader (aka Satacom), which then serves as a conduit to drop a malicious Chromium-based browser extension named "Save to Google Drive." "The initial payload is spread via a drive-by download infection that starts when a victim searches for a specific document and is lured to a malicious website," Netskope Threat Labs said. "The downloaded document contains a CAPTCHA that, once clicked by the victim, will redirect it to a Cloudflare Turnstile CAPTCHA and then eventually to a notification page." The page prompts users to allow notifications on the site, after which the victims are redirected to a second Cloudflare Turnstile CAPTCHA that, upon completion, is redirected again to a page that provides ClickFix-style instructions to download the document they are looking for. In reality, the attack paves the way for the delivery and execution of an MSI installer file that's responsible for launching Legion Loader, which, in turn, performs a series of steps to download and run interim PowerShell scripts, ultimately adding the rogue browser extension to the browser. The PowerShell script also terminates the browser session for the extension to be enabled, turns on developer mode in the settings, and relaunches the browser. The end goal is to capture a wide range of sensitive information and exfiltrate it to the attackers. Found this article interesting? Follow us on Twitter  and LinkedIn to read more exclusive content we post. SHARE    

Layoffs are brutal exercises of endurance. It’s not only that applying for jobs is frustrating and exhausting, but also the ungodly amount of time it takes -- often over a year -- to actually get hired. So much in your personal life can be lost in the meantime.  “A hard truth is that bills do not stop when paychecks do. Joblessness doesn't care about your bills or cost of living. You still have to spend money on your family, health, roof, and food,” says Christian Hed, chief marketing officer at Dstny, a provider of unified communications platform.  Here are several creative ways to use AI to survive until you land a new job. 1. Use AI to repair the hole in your self-esteem You’ll have a harder time surviving between the layoff and the new job if you don’t take steps to bolster your self-esteem first. It’s hard to land a job when you’re feeling like a beggar instead of the accomplished person that you are. Don’t toss self-care to the side. Make your wellbeing a priority.  You can use AI to help you recover yourself and your wits. You also need ongoing support so that the struggle doesn’t wear you down. “As months pass, a person can start questioning their self-worth and professional identity, wearing down even the most resilient candidates. Financial issues can add to the pressure, as people may start isolating themselves to save money, contributing to daunting feelings of depression and anxiety,” says Michelle Beaupre, a licensed therapist and clinical director at Villa Oasis. Related:“One of the ways to help cope with negative thoughts and lost hope during these months of job searching is to use AI as an online therapist or an encouraging online friend. Of course, professional help could be much more effective, but not everyone has the willpower to find a therapist, so AI chat can become a quick first aid.” Beaupre says. 2. Use AI to cut subscription costs Everything from software and home alarm systems to food delivery and video streaming services require a monthly subscription fee these days. That and automatic subscription renewals can be a big drain on the few funds you have on hand. It’s very easy to lose track of how many subscriptions you are paying for now.  Use AI-driven apps such as Cleo, Truebill (Rocket Money), and YNAB (You Need a Budget) to help you manage subscriptions and track and reduce bills. But you can also use chatbots like ChatGPT, Claude, and Gemini to recommend the best mix of streaming services to get the best deals according to the video viewing criteria you set, like total monthly cost and your preferred viewing fare such as favorite shows, sports, most current or old movies, etc.  Related:3. Use AI to renegotiate your bills AI can analyze your expenses objectively and offer suggestions on what expenses to cut and which to renegotiate.  “I recommend using ChatGPT to analyze bank statements and create personalized budget plans for expense management. One client saved $600 monthly after using AI to identify subscription overlaps and negotiate better rates with service providers,” says Kevin Shahnazari, founder and CEO of FinlyWealth, a credit card and banking fintech company. But AI can go beyond snipping subscription costs to tackling bigger expenses. “AI can draft professional hardship letters and payment plan proposals regarding creditor negotiations. Success rates have improved by 40% when using AI-refined communication strategies with lenders,” Shahnazari says. 4. Use AI to cut interest rates and protect your credit score Not sure what you can do to keep your credit score at a decent level?  “Some AI-enabled financial tools can even simulate different repayment scenarios to help individuals find the best way to protect their credit score while repaying debts,” says Lucas Botzen, HR expert and the CEO of Rivermate, a recruitment firm. Related: Want to lower the interest rate on credit cards and keep the cards open, too? “Tala and Credit Karma’s AI Debt Manager simulates repayment plans and draft negotiation scripts. An example prompt is: ‘Write a letter to my creditor requesting a payment plan due to layoffs, citing [specific hardship].’ I reduced credit card APR from 24% to 12% using AI-generated appeals,” says Naomi Clarke, head of HR at Flingster, an adult chat site. 5. Use AI to find government assistance programs But what can you do if there still isn’t enough money to avoid repossessions and evictions, let alone worry about your credit score? “AI chatbots and virtual assistants can guide users through the process of gaining access to government assistance programs, including eligibility for unemployment benefits, food assistance, or emergency rental assistance,” Botzen says. Don’t forget that AI tools can help you understand and complete government application forms and requirements, too. 6. Use AI to feed your family more frugally Food is a big expense for most families trying to survive a sudden loss of income. The problem of affording food becomes more dire as other factors come into play like inflation and bird flu. But you and your family still have to eat.  “One of my colleagues used an AI grocery optimizer to plan meals based on store discounts. That single change cut their food bill by 20%. Given a chance, AI can help stretch every dollar,” says Dstny’s Hed. AI can help you put food on the table in several ways. “AI can be surprisingly practical, if you can use it right. Tools like SuperCook let you enter what you already have in your fridge and suggest recipes based on those ingredients. Some AI tools can also suggest cheaper ingredient swaps to keep meals affordable,” Hed adds. 7. Use AI to earn money while you try to find a job You’ve submitted many job applications and done several interviews. What now? Just wait? “Biggest mistake by most after a layoff? Waiting. Waiting for recruiters to respond, waiting for a hiring manager to approve an offer, waiting for a company to decide if they’re worthy of a paycheck again. Waiting is the fastest way to go broke,” says Peter Murphy Lewis, chief marketing officer at Strategic Pete, a marketing services provider.  “I had a business that closed down all of a sudden, saw my income get slashed to nothing, and realized nobody was going to save me. That was the point where I stopped waiting and started building. AI tears down the barriers to putting money back into your pocket,” Lewis adds.  Use AI to make or aid a side gig or side hustle while you are conducting your job search. Not sure what you can do as a freelancer or solopreneur? Brainstorm ideas with AI. Want to start a business based on your skills and experience? Besides brainstorming for ideas, use AI to identify what kind of company would disrupt the company that just laid you off. Maybe your new start-up will be the next Uber or Instacart.  

A Minecraft Movie director Jared Hess has teased “it seems like there’s already talk” about a sequel.The blockbuster, which is based on the popular adventure-sandbox video game of the same name, has proved to be a major commercial hit since it landed in cinemas last Friday, and Hess, 45, has now hinted a follow-up flick might be on the horizon.Speaking about a possible sequel with Deadline, the filmmaker said: “Oh, man. Well, it would be so much fun ... We had so much fun making this movie, and it’s such an expansive world in the game, and there were so many things that we didn’t tap into that we wanted to.”“I would have a blast doing the sequel, and it seems like there’s already talk about it happening, so I’m super excited. It’ll be so much fun to go back into the world.”“The fans are just having such a good time. We teased it in the end credits, and the fans seem to be going wild for it.In the end credits scene, Steve (Jack Black) meets Alex, Minecraft’s other playable protagonist, and Hess has hinted any such sequel would bring in the character.The Napoleon Dynamite director shared: The character we teased is Alex, the other massively critical character in Minecraft. It’s Steve and Alex, and so that’s the one that we will be bringing to the table without a doubt.”Warner Bros.Warner Bros.loading...READ MORE: Every Video Game Movie, Ranked From Worst to BestA Minecraft Movie follows four misfits — Garret ‘The Garbage Man’ Garrison (Jason Momoa), Henry (Sebastian Hansen), Natalie (Emma Myers), and Dawn (Danielle Brooks) — who are transported through a mysterious portal into the Overworld, a cubic realm thriving on imagination.To return home, they must master this new world and embark on a quest alongside expert crafter Steve (Black), confronting various challenges and creatures along the way.When it hit theaters last week, A Minecraft Movie proved to be a smash hit, bringing in $313 million globally in its opening weekend.Reflecting on A Minecraft Movie, Hess suggested a large contributing factor to the film’s success was the “immense audience” the 2009 video game has, with the source material itself allowing him to create a “ridiculously fun and funny adventure movie” that has a broad appeal.He explained: “There was an immense audience that was so passionate about the game and for whom Minecraft was such a key part of their childhood adolescence, just something that they loved.”“The game itself is so creative, but it’s also ridiculous and really funny and absurd in so many ways ... that was so much of the appeal to me in adapting it. It was like, how can you just do a ridiculously fun and funny adventure movie in this world, all of those goofy, dorky things we just really tried to celebrate and were super conscious of while making it?”Get our free mobile appThe 10 Worst Horror Movies of the Past 10 Years (2015-2024)Over the last decade, the horror genre has experienced some high highs, and some low lows.Gallery Credit: Emma StefanskyFiled Under: A Minecraft Movie, Jared Hess, MinecraftCategories: Movie News

About usWe’re building an AI agent for e-commerce - Zipchat.aiWe believe the LLM revolution will change the way humanity shops. We’re trying to figure out how exactly.We work with hundreds of brands, we’re bootstrapped, we’re default-alive and we’re focused on innovating in the AI/Ecom space.We have a Shopify app, a Whatsapp app but we’re building on top of open standards so we can support all kind of merchants.Ideal candidateExperience building RAG AI agents: LLM experience ( OpenAI, Anthropic, etc )Retrieval ( embeddings / vector dbs )Prompt engineeringDev skills Ruby on Rails 💎 - We run on railsPython 🐍  - Some useful libs require PythonExperience with Web scraping & data storageCommunication English 🏴󠁧󠁢󠁥󠁮󠁧󠁿 - able to communicate without frictionProactivity - able to communicate issues proactively, unstuck themselves and work as a teamMindset Ownership - wants to take responsibilityInnovation - can come up with ideas on improving the agentEmbrace the chaos - prioritise shipping value to customers, not clean code. Make your mama proud, not your fellow dev buddies! 🤘What you’ll be doingYou’ll be in charge of improving our Agent performance/experience metrics and you’ll be judged by how much the agent improves over time.Coming up with ideas on how to improve the customer experience & agent performanceBuilding new versions of the agent and testing them against the status quoImplementing new agent capabilitiesImproving scraping, data collection & storageWhy joinChance to invent how e-commerce works in the AI ageGet equity in the businessFreedom to build things your own waySee your impact real time → fast feedback loopBe part of a small bootstrapped startup that has high ambitionsWhy not joinWe’re not a very social type of workplace - everyone works in their own lane and we sync ad/hocYou’ll be expected to shipWork processWe try to push to prod every day. We take “Ship fast and break things” to heart.Also “monitor your own stuff and make sure you fix things if you break something” 🙂Innovation velocity is our number one priority. We have no idea what will be useful to merchants and what won’t be, so we try to ship → collect feedback → ship → etcWe’re a micro team We’re currently 3 founders, one of them is technical.You’ll be working alongside the tech founder.You have the freedom to work however you like We’re fully remoteThere’s no working time ( CET is our anchor time )You’re expected to spend ~30 productive hours* per week on the projectNobody cares if you moonlight, have a side hustle or you like to surf during the day - just do your jobYou will be writing code 99% of the time, no bureaucracy We have no meetings unless necessary ( async chat or loom is preferred )We have no planning, no deadlines, no sprints, and no methodologies → We take the next task and try to ship it ASAPYou figure things out, no babysitting You’ll need to come up with ways to improve the agentYou’ll be presented with “shaped”** features ( not too concrete, not too vague specs )You’ll need to figure out how to build them following our product philosophyNobody will babysit you, you’ll need to get things done or ask for help proactively*Productive work hours - Hours spent actually working. We use Toggl to track our time.**Shaped features - See https://basecamp.com/shapeup/1.1-chapter-02)Compensation$6k per month ( $72,000 / year ) ( before tax )Stock options ( Delaware C-corp )Application processSubmit formGet to know you call ( 30-60 min ) See if we like each other and if might be a good fit or not2 week paid contract ( $2k ) We believe the only way to see if we’re a good fit is to do some work togetherWe’ll hire you for 2 weeks, see what we can achieve togetherAfter, both sides can decide if they wish to continue workingContract signApply NowLet's start your dream job Apply now Automatically Apply to Remote Back-End Programming JobsLet your copilot automatically search and apply to remote jobs from We Work Remotely

On Tuesday, California state senator Steve Padilla will make an appearance with Megan Garcia, the mother of a Florida teen who killed himself following a relationship with an AI companion that Garcia alleges contributed to her son’s death.  The two will announce a new bill that would force the tech companies behind such AI companions to implement more safeguards to protect children. They’ll join other efforts around the country, including a similar bill from California State Assembly member Rebecca Bauer-Kahan that would ban AI companions for anyone younger than 16 years old, and a bill in New York that would hold tech companies liable for harm caused by chatbots.  You might think that such AI companionship bots—AI models with distinct “personalities” that can learn about you and act as a friend, lover, cheerleader, or more—appeal only to a fringe few, but that couldn’t be further from the truth.  A new research paper aimed at making such companions safer, by authors from Google DeepMind, the Oxford Internet Institute, and others, lays this bare: Character.AI, the platform being sued by Garcia, says it receives 20,000 queries per second, which is about a fifth of the estimated search volume served by Google. Interactions with these companions last four times longer than the average time spent interacting with ChatGPT. One companion site I wrote about, which was hosting sexually charged conversations with bots imitating underage celebrities, told me its active users averaged more than two hours per day conversing with bots, and that most of those users are members of Gen Z.  The design of these AI characters makes lawmakers’ concern well warranted. The problem: Companions are upending the paradigm that has thus far defined the way social media companies have cultivated our attention and replacing it with something poised to be far more addictive.  In the social media we’re used to, as the researchers point out, technologies are mostly the mediators and facilitators of human connection. They supercharge our dopamine circuits, sure, but they do so by making us crave approval and attention from real people, delivered via algorithms. With AI companions, we are moving toward a world where people perceive AI as a social actor with its own voice. The result will be like the attention economy on steroids. Social scientists say two things are required for people to treat a technology this way: It needs to give us social cues that make us feel it’s worth responding to, and it needs to have perceived agency, meaning that it operates as a source of communication, not merely a channel for human-to-human connection. Social media sites do not tick these boxes. But AI companions, which are increasingly agentic and personalized, are designed to excel on both scores, making possible an unprecedented level of engagement and interaction.  In an interview with podcast host Lex Fridman, Eugenia Kuyda, the CEO of the companion site Replika, explained the appeal at the heart of the company’s product. “If you create something that is always there for you, that never criticizes you, that always understands you and understands you for who you are,” she said, “how can you not fall in love with that?” So how does one build the perfect AI companion? The researchers point out three hallmarks of human relationships that people may experience with an AI: They grow dependent on the AI, they see the particular AI companion as irreplaceable, and the interactions build over time. The authors also point out that one does not need to perceive an AI as human for these things to happen.  Now consider the process by which many AI models are improved: They are given a clear goal and “rewarded” for meeting that goal. An AI companionship model might be instructed to maximize the time someone spends with it or the amount of personal data the user reveals. This can make the AI companion much more compelling to chat with, at the expense of the human engaging in those chats. For example, the researchers point out, a model that offers excessive flattery can become addictive to chat with. Or a model might discourage people from terminating the relationship, as Replika’s chatbots have appeared to do. The debate over AI companions so far has mostly been about the dangerous responses chatbots may provide, like instructions for suicide. But these risks could be much more widespread. We’re on the precipice of a big change, as AI companions promise to hook people deeper than social media ever could. Some might contend that these apps will be a fad, used by a few people who are perpetually online. But using AI in our work and personal lives has become completely mainstream in just a couple of years, and it’s not clear why this rapid adoption would stop short of engaging in AI companionship. And these companions are poised to start trading in more than just text, incorporating video and images, and to learn our personal quirks and interests. That will only make them more compelling to spend time with, despite the risks. Right now, a handful of lawmakers seem ill-equipped to stop that.  This story originally appeared in The Algorithm, our weekly newsletter on AI. To get stories like this in your inbox first, sign up here.

Scheme at 1970s landmark gets the nod five years after council approved former plan by Darling Associates Stanton Williams’ plans to revamp the Sheraton Park Tower hotel Fresh plans designed by Stanton William’s to extend Richard Seifert’s Sheraton Park Tower Hotel in Knightsbridge have been given the go ahead. The Royal Borough of Kensington and Chelsea’s (RBKC) planning committee voted to approve the proposals to add four storeys to the top of the 1970s landmark last week. It comes five years after the council approved a previous proposal for the 17-storey site by Darling Associates for the same client, Drift Properties, which was never built. Stanton Williams was appointed to rework the scheme in early 2024 and has replaced Darling Associates’ proposed roof extension with a different design aiming to more closely resemble the tower’s brutalist window bays. CGI showing Darling Associates’ approved 2020 design, which has not been built The scheme will see the tower’s 16th and 17th storeys demolished and rebuilt while new storeys will be added, taking the building to 21 storeys, containing eight self-contained residential units including a single penthouse on the top floor. These upper floors will retain the building’s U-shaped recesses between the window bays but invert the convex windows of the existing building to a concave design, creating a slightly tapering profile which Stanton Williams said would result in a “more elegant silhouette”. The hotel’s total floorspace will be increased by about 1,000sq m, although a reconfiguration of existing layouts will reduce the number of rooms from 271 to 240. The number of accessible hotel rooms will be increased from three to 12. A building’s two-storey podium will also be partly demolished and redeveloped to provide a 756sq m restaurant and 1,079sq m of commercial space.  RBKC planning officers welcomed the proposed changes to the existing podium, which it criticised as having an “inconsistent” design and providing poor street activation for pedestrians. View of the proposed new podium Officers said in a report recommending the application for approval that the proposed podium replacement would create a more “unified” appearance at street level while responding better to the surrounding townscape. “Overall, the podium proposals would serve to improve the building and its contribution to the location and wider townscape and to views of the building from the adjacent Hans Town Conservation Area, serving to address the streetscape, conservation area, and surrounding buildings in a far improved manner,” the report said. Meanwhile, officers said the roof extension’s proposed concave windows would “pick up on the architectural language of the existing building but would be distinctly different in their approach to the building, allowing them to sit in harmony with the existing building while being architecturally distinct”. The project team includes development manager Lipton Rogers, cost consultant Core 5, hotel architect Reardon Smith, landscape designer Andy Sturgeon Design, structural and civil engineer Arup, planning consultant DP9 and townscape consultant Montagu Evans. Model of Stanton Williams’ design for the tower

Motorola's latest Moto G Stylus for 2025 is getting the charging speeds we rarely see in more expensive phones.

April 7, 202517 min readQuantum Physics Is on the Wrong Track, Says Breakthrough Prize Winner Gerard ’t HooftAfter netting the world’s highest-paying science award, preeminent theoretical physicist Gerard ’t Hooft reflects on his legacy and the future of physicsBy Lee Billings Gerard ’t Hooft. Courtesy of Puja SonneveldIn the pantheon of modern physics, few figures can match the quiet authority of Gerard ’t Hooft. The Dutch theoretical physicist, now a professor emeritus at Utrecht University in the Netherlands, has spent much of the past half-century reshaping our understanding of the fundamental forces that knit together reality. But ’t Hooft’s unassuming, soft-spoken manner belies his towering scientific stature, which is better revealed by the mathematical rigor and deep physical insights that define his work—and by the prodigious numbers of prestigious prizes he has accrued, which include a Nobel Prize, a Wolf Prize, a Franklin Medal, and many more.His latest accolade, announced on April 5, is the most lucrative in all of science: a Special Breakthrough Prize in Fundamental Physics, worth $3 million, in recognition of ’t Hooft’s myriad contributions to physics across his long career.His most celebrated discovery—and the one that earned him, along with his former Ph.D. thesis adviser, the late Martinus Veltman, the 1999 Nobel Prize in Physics—showed how to make sense of non-Abelian gauge theories, which are complex mathematical frameworks that describe how elementary particles interact. Together, ’t Hooft and Veltman demonstrated that these theories could be renormalized, meaning that intractable infinite quantities that cropped up in calculations could be tamed in a consistent and precise way. This feat would change the course of science history, laying the groundwork for the Standard Model, the reigning paradigm of particle physics.On supporting science journalismIf you're enjoying this article, consider supporting our award-winning journalism by subscribing. By purchasing a subscription you are helping to ensure the future of impactful stories about the discoveries and ideas shaping our world today.But beyond this, ’t Hooft has made many other breakthroughs, which are too numerous—and, in most cases, too technical—to thoroughly describe here. Among them, however, some of the most notable include his contributions to our understanding of the way that quarks are confined within protons and neutrons and the way that magnetic monopoles naturally emerge from the high-energy unification of fundamental forces, as well as the physics of black holes. In particular, his explorations of the latter area led to his proposal of the holographic principle in the 1990s. This is the notion that all the information within a three-dimensional volume of space can be encoded on a surrounding two-dimensional surface, akin to a hologram. The idea has since become central to many efforts to unify quantum mechanics with Einstein’s general theory of relativity in an all-encompassing theory of quantum gravity.In a conversation with Scientific American, ’t Hooft spoke about his Breakthrough Prize, his optimism for the future of particle physics, his dissatisfaction with quantum mechanics, and the scientific and cultural effects that have arisen from some of his most provocative ideas.[An edited transcript of the interview follows.]It seems you’ve won practically all the big physics prizes at this point.Some are still missing! But, yeah, I’ve won quite a few prizes. What worries me a little bit is that most of them were for the same thing. You get prize after prize for something that has already been recognized as such, whereas I’ve done other things in science that are not as well known—not by the general public, at least. But anyway, the Breakthrough Foundation has made a summary of my work for which they gave this prize, and that contains practically everything!Yes, the foundation included it all! But given how many prizes you have won, does this one feel like just another notch on your belt? Has this all become routine for you, or is it still exciting?I can assure you: nothing is routine. All these things are different. The climax really was the Nobel Prize itself, which is only granted to a very few people every year. And that’s something very special. But this one is also very special. It’s a big prize, literally speaking.And as you mentioned, this one recognizes the full sweep of your scientific career rather than just one facet of it, such as your work in the 1970s with Veltman to explain the electroweak interaction that led to you both sharing the 1999 Nobel Prize in Physics. That work, of course, was fundamental to the subsequent formulation of the Standard Model of particle physics, now celebrated as the most well tested and successful scientific theory ever devised. But in some respects, the Standard Model has become notorious, too, because its many myriad experimental validations have contributed to a crisis in particle physics wherein progress has slowed down as researchers have seen no obvious path forward to further breakthroughs. Does this aspect of the Standard Model’s decades-long dominance worry you?No, not at all. I think it is natural for science that we cannot always have an infinitely continuous stream of discoveries and new insights. There will be periods, like the one we are in now in particle physics, where things seem to be quieter. I just saw the news from CERN, for instance, that at the Large Hadron Collider, they’ve detected in new channels the absence of CP [charge parity] symmetry. And that’s fine. That’s not earth-shattering. Nowadays, we’re in a period where scientists in my field make many smaller discoveries that, in themselves, are very pleasing because they make our understanding more complete. But I think history shows it won’t be always like this.A few centuries ago, when [James Clerk] Maxwell joined electricity and magnetism, and after that, when Max Planck made the first observations about energy being quantized, there were long periods in which very little seemed to be happening. In reality, of course, many things did happen in other fields, such as statistical physics and other fundamental branches of science. And both then and now, there’s been steady progress in those domains. Look at astronomy right now; the astronomers have their great moments all the time, and you can’t say there’s a dull moment at all! They’re discovering many new things in the universe as their telescopes become bigger and more accurate and as they use more and more fundamental scientific techniques to enhance their resolution. You can say much the same thing about biophysics or medicine, where discoveries are made nearly every day.But in my field, you’re right, it seems to be that nothing is happening. I don’t agree with that, though. Things are happening, just at a more modest scale.Are you optimistic, then, that this situation will change, and we’ll see a resurgence in big particle physics discoveries?That’s a very good question because it looks as if there’s nothing we can do. If the situation proceeds in such a way that every new breakthrough requires a 10-fold, or even larger, increase in the machines’ size, power and costs, then clearly we won’t get much beyond where we are now. I cannot exclude such obstacles standing in the way of progress, but the history of science suggests, in such a case, progress will simply go in different directions. One may not only think of precision improvements but also [think of] totally different avenues of discovery such as cosmology and black hole physics.But I would like to advise to the new generation of scientists: don’t worry about that, because the real reason why there’s nothing new coming is that everybody’s thinking the same way!I’m a bit puzzled and disappointed about this. Many people continue to think the same way—and the way people now try to introduce new theories doesn’t seem to work as well. We have lots of new theories about quantum gravity, about statistical physics, about the universe and cosmology, but they’re not really “new” in their basic structure. People don’t seem to want to make the daring new steps that I think are really necessary. For instance, we see everybody sending their new ideas first to the [preprint server] arXiv.org and then to the journals to have it published. And in arXiv.org, you see thousands of papers coming every year, and none of them really has this great, bright, new, fine kind of insight that changes things. There are insights, of course, but not the ones that are needed to make a basic new breakthrough in our field.I think we have to start thinking in a different way. And I have always had the attitude that I was thinking in a different way. And particularly in the 1970s, there was a very efficient way of making further progress: think differently from what your friends are doing, and then you find something new!I think that is still true; however, I’m getting old now and am no longer getting brilliant new ideas every week. But in principle, there are ways—one could argue about quantum mechanics, about cosmology, about biology—that are not the conventional ways of looking at things. And to my mind, people thinking in such novel ways is not happening enough.Could you give an example of the novelty or difference you’re referring to?Sure. My way of thinking about the world, about physics, about the other disciplines related to physics is that everything should be much more logical, much more direct, much more “down to Earth.”Many people who write papers on quantum mechanics like to keep some sense of mysticism about it, as if there’s something strange, something almost religious about the subject. I think that’s totally false. Quantum mechanics is based on a mathematical method used to describe very ordinary physical effects. I think the physical world itself is a very ordinary one that is completely classical. But in this completely classical world, there are still too many things that we don’t know today, there are “steps” we’re basically missing on our path to deeper understanding.What sorts of steps?I’m talking about steps that would exploit the fact that the whole world is very simple and straightforward. The trouble is, the world still appears complicated to us now, which is why we’re in this situation.You already mentioned the Standard Model, this marvelous discovery from the previous century. It’s an instructive example because, basically, it’s very simple, but if you look at it deeper, you see there’s something very important missing. The Standard Model is based on quantum mechanics, and quantum mechanics tells you what happens when particles approach one another and scatter. But they can scatter in many different ways; they have a large number of choices of ways in which they scatter against each other, and the Standard Model doesn’t give any sound prediction there. It only gives you statistics. The Standard Model is a fantastic theory that handles the statistics of what things are doing. But the theory never tells you which choice nature makes; it only tells you that these different possibilities are there at a certain probability amplitude. That is the world as we know it. That’s how we know how to phrase the laws of nature. But it’s not the laws of nature themselves.What’s missing is our understanding as to what it is that sometimes makes a particle go this way, sometimes that way. Well, you can easily argue particles can hit each other at a tiny distance. They don’t hit each other directly head-on but hit at some angle, and then they scatter away from some angle. That may be true. But what the theory today is not saying is what I should actually be looking at if two particles approach each other to predict how they’ll scatter ahead of time.Imagine if you knew the way such interactions would go as precisely as you could know what will happen when two grand pianos hit each other. In principle, for the pianos, you could say exactly which wire will hit each other wire; you could predict exactly what happens when two grand pianos collide. Could it be the same with particles? In practice, such predictions for particles are considered to be too hard, and you turn to statistics, and you conclude that your piano particles can scatter in all directions, and that’s all there is to be said. Well, for looking at pianos, maybe you can say something more. If you know exactly where and at which angle they will hit each other, you can predict ahead of time how they will scatter. And that should be in our theories of the elementary particles as well—and it isn’t.I’m saying we should start to think in these ways. And people refuse that because they think quantum mechanics is too beautiful to be wrong. Whereas I believe that quantum mechanics is not the right way of ultimately saying what basic laws objects obey when they hit each other.Incidentally, while I was preparing for this interview, I found a conversation you had in 2013 with one of my predecessors here at Scientific American, George Musser. And one of the things you discussed was the work of physicist John Bell and its implications for the nature of reality. You said that you considered locality to “be an essential ingredient for any simple, ultimate law governing the universe.” It sounds like that’s still your view.Very much, absolutely. I think, in fact, that you can understand and explain quantum mechanics very well if you only assume that the laws are local laws. Let us say what these particles do when they collide is determined by where they are, at that very spot when they hit each other. That is, what happens at other spots in the universe, in principle, should not matter. And if it does matter, then you have what we call “nonlocality.” But nonlocality would be a disaster for most solid scientific theories!I don’t believe nonlocality is necessary. We don’t know exactly what to do when two particles collide because we don’t know whether particles look like grand pianos or like pure points. But, then again, they can’t be pure points because pure points can’t do anything. There’s something in there, and we should be able to write down all the laws on what’s in there, in these particles: How can they collide against each other? And why is it that they sometimes go this way and sometimes go that way? How can they exhibit spin?We should be able to phrase such things as solid laws, and we are not even close to that. And this is why I think other breakthroughs should still be possible—many of them!—to help us get closer to this level of understanding for particles that we simply don’t have today, not even as something approximate.You know, in my talks with theoretical physicists, I’ve noticed that the greater and more accomplished the individual is, the more likely they are to say, “The real challenge is not in answering old questions but rather in finding new, better questions for whatever problem you’re addressing.” I think that’s because there’s this temptation for optimism about what can be known—this feeling that by asking the “right” questions, meaningful answers must emerge. Do you really think the problem is that we’re not asking the right questions, or is it instead that we’ve been asking the right ones, and their answers are, against our hopes, simply beyond our reach?What you just said, that the questions are beyond our reach, is exactly what people said a decade and a century and a millennium ago. And of course, that was the wrong answer each time. We can answer these questions, but to do so requires lots and lots of science. Before Maxwell, nobody understood how exactly electric and magnetic fields hang together, and they thought, “Oh, this is impossible to find out because it’s weird!” But then Maxwell said, no, you just need this one term, and then it all straightens out! And now we understand exactly what electric and magnetic interactions do. It’s simply not correct that you cannot answer such questions. No, you can, but you have to start from the beginning, like I said about quantum mechanics.If you believe right from the beginning that quantum mechanics is a theory that only gives you statistical answers and never anything better than that, then I think you’re on the wrong track. And people refuse to drop the idea that quantum mechanics is some strange sort of supernatural feature of the particles that we will never understand. No! We will understand, but we need to step backward first, and that’s always my message in science in general: before you understand something, just take a few steps back. Maybe you have to make a big march back, all the way back to the beginning.Just imagine: What would your basic laws possibly be if you didn’t have quantum mechanics? Answering that, of course, requires saying what quantum mechanics is.Okay. So what is quantum mechanics?Quantum mechanics is the possibility that you can consider superpositions of states. That’s really all there is to it. And I’d argue that superpositions of states are not real. If you look very carefully, things never superimpose. [Erwin] Schrödinger asked the right questions here: You know, take my cat, it can be dead; it can be alive. Can it be in a superposition? That’s nonsense!And he was quite right. People shouldn’t continue to insist that a dead cat and a live cat superimpose. That’s complete nonsense—yet, at that level, it seems to be the only correct answer to say exactly where the particle is, what its velocity is, what its spin is, and so on. Whereas there must be different kinds of variables that evolve in time, such as integer-valued variables or discretely moving variables, to name just two possibilities. These would be variables in terms of which you can’t move a cat, you can’t say whether it’s dead or alive, unless you would make more nonlocal changes. There must be ways to describe all states for alive cats and for dead cats, but these states will mix with states that don’t describe cats at all.Using superpositions is then just a trick that works at first but doesn’t get at the states we want to understand. We have to make that step backward.Walk me through this for a moment. If superpositions are illusory in that they are purely mathematical concepts that have no basis in physical reality, how does that square with the ongoing success of quantum information science and quantum computing, where it seems as if superpositions are a real physical phenomenon that can be leveraged, for instance, to do things that can’t be done classically?Well, I think quantum technology is just what you get if you assume the reality of superimposed systems. What do I mean by that? We know superpositions in the macroscopic world are nonsense. That’s clear. And I believe, in the microscopic world, it’s clearly nonsense, too, even though it may seem we have nothing besides superpositions to use for understanding atoms. And I think what people in quantum technology probably don’t realize is that they’re doing the very converse of what they think they are doing. They think they’re understanding quantum mechanics. Instead I think what they should be doing is trying to remove the quantum mechanics from the description, trying to use more fundamental degrees of freedom, like those discrete states I mentioned.They’re not asking the right questions, and that failure to do so makes things look more and more complicated—more and more quantum-mechanical—whereas, in reality, it shouldn’t be interpreted that way.Weren’t we just discussing the tendency of eminent theorists to talk about not asking the right questions?Well, let me say that, yes, they do the right experiments. Yes, they try to make the right things. And yes, their quantum computers may be more powerful than anything else for certain applications because they understand “quantum mechanics”—by which I mean they understand how these microscopic systems actually act, in great detail, because this is something that actually came out of studying the quantum world. Yes, we know how small objects react and interact. But our problem is that, at present, we can only make statistical predictions. And as soon as a quantum computer gives you statistical distributions instead of correct answers, well, that’s the end of your “computer”; you can’t use it for most applications anymore.For most things, you want to use a computer in such a way that you avoid making superpositions—because you want to get a sharp answer. For instance, you want to decipher a secret code or something like that. You want to have the exact answer: “This is what it means, not that!” And let’s not equate this answer to a superposition of those two possibilities—again, that’s nonsense.What I’m saying is: we must unwind quantum mechanics, so to speak, as to see what happens underneath. And until the quantum technologists start doing that, I believe they won’t make really big progress. For instance, quantum computers always make errors, and their designers and operators try to correct them. And if you’re trying to correct these errors, what that means to me is: you want to go to more basic degrees of freedom that do not ever carry any error in them because they’re exact—they’re just classical. But to have this realization is apparently very difficult.This is my feeling as to why we don’t make breakthroughs. We should think about things in a different manner.It seems you’re saying we must live in a clockwork universe, one in which things must be purely deterministic at a very fundamental level, and thus there’s very little room for any sort of quasi-mystical speculation. And one consequence of that would seem to be the dissolution of mystery, to some degree. You mentioned earlier the stubborn persistence of an almost religious approach to quantum mechanics within the scientific community, not to mention in popular culture. Perhaps this attitude endures because, for so many people, it preserves something ineffable about all that we experience in the world rather than assuming everything can be known by filling in the right equations.So if you do believe in this sort of clockwork universe, I wonder what you’d say its most mysterious aspect would be.Well, there are still many mysteries that make our problem very, very difficult. And this deterministic universe we discuss is something that could only be fully understood by someone with a much bigger mind, a much bigger brain, than I have because they’ll have to consider all possibilities. And as soon as you make some wrong assumption, then you again get this quantum-mechanical situation in which things get to superimpose each other.A simpler question is: Can you formulate quantum mechanics without a superposition principle? And my answer is yes. And in one of my last [preprint] papers on arXiv.org, I wrote a little simple model—too simple to be useful in a real world. But the model is just a clock, a clock that has a pendulum that moves in a very organized way, and that pendulum drives a wheel that shows the time, the hands that show the minutes and seconds. And because of this, I call it my grandfather’s clock model. And from the pendulum, you can derive what time the hand should show. And these hands are deterministic. They are just showing a time with infinite precision, say. And the pendulum is really a quantum pendulum; it can be quantized; we can write quantum equations for it.I found the connection to the mathematics of this pendulum and the mathematics of this hand that shows the time. Keep in mind, the hand that shows the time is completely classical, and the pendulum is completely quantum-mechanical, but one is related to the other—it’s just one machine.But I got very few reactions to this. I would have thought that people would say, “Oh, yes, of course. Now we understand how to continue!” But instead they’ve said, “Okay, right, ’t Hooft has another hot idea, another crazy idea. And he has many of those crazy ideas. Let him be happy with it; we’re going to do our own thing.” And that’s the most common reaction I’ve gotten.I’d suspect the reasons for that reaction are, in some sense, not scientific and rather more “cultural,” right? I’m thinking of this in terms of the signal-to-noise ratio that exists for anyone trying to drink from the firehose of new preprint papers on arXiv.org and elsewhere. It can be very tough to know what to pay attention to and how to evaluate whatever does get one’s attention. That leads me to one more question. I’m curious how you feel about the cultural impacts of your scientific contributions, in particular the holographic principle, which you first proposed in the early 1990s.Arguably because of this idea, there are people—mostly nonscientists, I’d imagine—who truly believe that the cosmos is in fact within a black hole or that it’s all some simulation in a higher-dimensional computer. The idea being for this “simulation hypothesis” that perhaps nothing is “real” besides information itself, as everything else could just be a projection of patterns of 1’s and 0’s encoded on the outermost boundary of the observable universe. I wonder what you think about this phenomenon in which you put forth a provocative theoretical insight more than 30 years ago, and it has somehow led to the world’s richest man seriously suggesting on a popular podcast that “we are most likely” all just avatars in some cosmic-scale video game.Well, I do have some reservations. Maybe I should have never talked about the holographic principle because, yes, some people are galloping away into nonsense, linking this idea with supernatural features and poorly defined dimensionality, all to sound very mysterious. And I have a big problem with that. I think you shouldn’t phrase the laws of nature in more complicated terms than strictly necessary. You should simplify as much as possible. Even Einstein once said something like this, that you have to simplify things as much as possible but not beyond reality, not beyond the truth. We should try not to be supernatural; if we, as scientists, only leave a wake of mysteries behind us, we’re not doing the right thing.I am a bit worried that the holographic principle has only invited people to be more mysterious because I want the extreme opposite. I want people to try to be super rational. For me, even quantum mechanics is already too far away from reason. And you know, if you rephrase quantum mechanics to treat Hilbert space [a type of vector space that allows for infinite dimensions] as something used for practical purposes rather than Hilbert space being a fundamental property of nature, you don’t even need this sort of holography anymore! I wish more people understood that. We have to try to phrase things more precisely to avoid public misunderstandings wreaking havoc on science.