A feature story authored by Simon Spichak, MSc investigates how biotech companies like Cortical Labs and FinalSpark harness human brain cells to electrodes, performing computational functions and testing the cells’ responses to electrical and chemical stimuli. To create biocomputers, scientists grow organoids—small spheres of, in this case, neural tissue—on top of multi-electrode arrays in a hardware shell, which can then be used for everything from testing medications to playing video games. The work is published in the Journal of Medical Internet Research.
Threat actors are abusing ChatGPT’s content-sharing feature to display fake OpenAI outage pages that direct users to download malware disguised as the ChatGPT desktop application.
The “LLMShare” campaign, discovered by Push Security, uses Google ads to direct users searching for ChatGPT to a malicious shared ChatGPT page hosted on chatgpt.com, allowing the attack to be delivered through a legitimate OpenAI domain.
Users who click the advertisement are taken to a legitimate ChatGPT shared page, but instead of seeing a chat conversation, they are presented with a rendered outage notice claiming the web version is unavailable and that they should download the desktop application instead.
A chilling wave of online theories erupted after viral posts claimed Google’s experimental Willow quantum chip may have detected “something watching us.” The internet quickly exploded with speculation involving parallel universes, hidden dimensions, cosmic observers, simulation theory, and artificial intelligence uncovering realities beyond human understanding. But what’s actually true behind the headlines?
Google’s quantum computing research focuses on developing advanced processors capable of solving highly specialized problems using qubits, superposition, and quantum entanglement. These systems operate according to the strange laws of quantum mechanics, where particles can behave in ways that often sound almost impossible from a normal human perspective.
The viral controversy appears to have grown from misunderstandings surrounding discussions of quantum interference, error correction behavior, and theoretical interpretations of quantum physics such as the “many-worlds interpretation.” Some internet users exaggerated these highly technical concepts into claims that quantum computers were interacting with external intelligences or hidden observers.
In reality, there is currently no scientific evidence that Google’s Willow chip discovered conscious entities, surveillance from another dimension, or anything literally “watching humanity.” Physicists say many sensational headlines confuse legitimate quantum phenomena with speculative science fiction ideas that become distorted across social media.
However, the science itself is still fascinating. Quantum experiments often reveal behaviors that challenge ordinary intuition, including entanglement, probabilistic outcomes, observer effects, and interference patterns that remain deeply debated even among physicists. Some interpretations of quantum mechanics suggest reality may operate in ways far stranger than classical physics once imagined — though none prove supernatural observation or cosmic consciousness.
In this video, we break down what the Willow quantum chip is actually designed to do, how quantum computers really work, and why modern quantum physics often gets misrepresented online. We’ll also explore qubits, superposition, observer effects, many-worlds theory, simulation hypotheses, AI-assisted physics research, and the growing race to build next-generation quantum systems.
A growing number of quantum engineers worldwide have been trying to realize large-scale quantum networks, which consist of several connected quantum computers or devices that share information with each other. The successful realization of these networks could potentially pave the way for the realization of new high-speed and secure communication systems, or even of a quantum version of the internet.
A key challenge when trying to realize large-scale quantum networks is ensuring that the quantum properties of microwave signals can be reliably transferred from one location to another. These signals are highly sensitive to random energy fluctuations associated with heat. Thus, systems introduced so far typically operate inside cooling machines known as dilution refrigerators.
Researchers at Walther-Meißner-Institute (WMI) and Technical University of Munich have introduced a new approach to successfully transfer quantum microwave states between two separate dilution refrigerators connected by a warmer superconducting cable, with temperatures of up to 4K.
Search the web, and you’ll find any number of biohacking techniques for promoting healthy lifespan, from taking cold baths to breathing pressurized oxygen to sleeping under a red light.
There’s a simpler path to healthy aging, and science from Tufts and elsewhere has shown that it really works: Just eat a little bit less. Cutting down on calorie intake by as little as 10–15% can lower the risk of developing age-related illnesses by improving cardiovascular health, lowering blood pressure, and improving glucose tolerance, among many other benefits. For some people, reaping these benefits can be as easy as giving up one large latte per day.
The work is published in The American Journal of Clinical Nutrition.
Supply chains are a primary target for cybercriminals and provide the foundation of global commerce in the hyper-connected digital ecosystem of today. Artificial intelligence (AI) simultaneously exacerbates vulnerabilities as it revolutionizes operations through predictive analytics, automation, and real-time visibility. Sophisticated threat actors, ransomware groups, and nation-state actors employ AI to exploit the vulnerable links in intricate, multi-tiered supply networks.
Artificial intelligence can create dual-use dynamics. It promotes efficiency by facilitating real-time data transfers and hyper-connected operations, while simultaneously significantly expanding the attack surface. Compromises of a single vendor or update have been shown to have a cascading effect on economies, governments, and critical infrastructure through supply chain attacks.
In The AI Era, Supply Chains Are Prime Targets.
The complexity of supply chains is inherent, as they encompass continents, jurisdictions, and a multitude of third-party vendors, contractors, and software components. Each link—whether it be legacy systems, unvetted code, IoT devices, or 5G-enabled connections—provides potential entry points. AI exacerbates these risks by allowing attackers to automate reconnaissance, create polymorphic malware that evades detection, create personalized phishing campaigns, and identify vulnerabilities quicker than defenders can apply patches.
Digital culture is reshaping people’s experiences of fear, curiosity and belonging, according to new findings from Lancaster University. Researchers have explored why online environments like the “Backrooms”—mysterious empty spaces resembling uncharted office blocks, basements and corridors—have become so compelling, and why people are choosing to get lost in spaces that don’t exist.
Unlike traditional “dark tourism,” which focuses on physical sites and historical events, the “Backrooms” represent a new kind of experience that exists entirely online. They emerge from, and circulate through, the darker corners of the internet that are less visible, less regulated, and often more experimental in tone.
The research, co-authored by Dr. Sophie James and Professor James Cronin from Lancaster University Management School (LUMS), explains how, in these online spaces, people are not traveling to real locations, but entering shared digital environments that feel immersive, unsettling, and just out of reach.
Forget little green men — the galaxy’s most likely aliens may be hives and swarms. From biology to starships, insectoid life could shape civilizations stranger than ours.
Grab one of our new SFIA mugs and make your morning coffee a little more futuristic — available now on our Fourthwall store! https://isaac-arthur-shop.fourthwall… our Website: http://www.isaacarthur.net Join Nebula: https://go.nebula.tv/isaacarthur Support us on Patreon: / isaacarthur Support us on Subscribestar: https://www.subscribestar.com/isaac-a… Facebook Group: / 1,583,992,725,237,264 Reddit: / isaacarthur Twitter: / isaac_a_arthur on Twitter and RT our future content. SFIA Discord Server: / discord Credits: Insectoid Aliens — Hive Minds, Swarms, and Alien Evolution Written, Produced & Narrated by: Isaac Arthur Editor: Thomas Owens Select imagery/video supplied by Getty Images Music Courtesy of Stellardrone & Music by Epidemic Sound: http://nebula.tv/epidemic Chapters 0:00 Intro 3:30 Hive Reproduction Strategy 6:10 Insectoid Evolutionary Paths 13:47 Signals in the Swarm 16:53 Sensory Worlds 18:13 Intelligence & Individuality in Hive Species 19:35 Privacy 22:08 Hive Architecture & Technology 20:54 Alien Ecology & Predators 23:21 Cultural & Political Models 24:31 Spacefaring Adaptations 25:52 Final Thoughts.
Visit our Website: http://www.isaacarthur.net. Join Nebula: https://go.nebula.tv/isaacarthur. Support us on Patreon: / isaacarthur. Support us on Subscribestar: https://www.subscribestar.com/isaac-a… Facebook Group: / 1583992725237264 Reddit: / isaacarthur. Twitter: / isaac_a_arthur on Twitter and RT our future content. SFIA Discord Server: / discord. Credits: Insectoid Aliens — Hive Minds, Swarms, and Alien Evolution. Written, Produced & Narrated by: Isaac Arthur. Editor: Thomas Owens. Select imagery/video supplied by Getty Images. Music Courtesy of Stellardrone & Music by Epidemic Sound: http://nebula.tv/epidemic.
Chapters. 0:00 Intro. 3:30 Hive Reproduction Strategy. 6:10 Insectoid Evolutionary Paths. 13:47 Signals in the Swarm. 16:53 Sensory Worlds. 18:13 Intelligence & Individuality in Hive Species. 19:35 Privacy. 22:08 Hive Architecture & Technology. 20:54 Alien Ecology & Predators. 23:21 Cultural & Political Models. 24:31 Spacefaring Adaptations. 25:52 Final Thoughts
Matthew Weinzierl and Brendan Rosseau, authors of Space to Grow, explain the commercial space economy and the role of NASA, Artemis, commercial space stations, space-based data centers, Starlink, GPS, China’s space program, national security, and space governance.
The conversation covers how governments, private companies, and investors build, fund, regulate, and compete in space, from microgravity research and launch markets to lunar exploration, space resources, and the economics of commercial space.
We also try and re-write the Space Treaty and look at the politics of the space race.
Please enjoy the show.
Thinking on Paper is a technology podcast about AI, Space, quantum computing, science, and the systems shaping the future.
Everyone is currently watching the major tech giants throw billions of dollars at the AI arms race, cheering for whichever foundation model happens to top the leaderboards this week.
It is an incredible spectacle to watch unfold, but focusing too closely on the tech itself might mean we are missing the actual business revolution happening right under our noses.
We have seen this exact economic shift before. The biggest winners of the internet era weren’t the ones who built the physical infrastructure or supplied the goods; they were the platforms that organized the supply and owned the user relationship. The same economic laws are now coming for artificial intelligence, actively turning “intelligence” into a basic, interchangeable utility.
The real value moving forward is no longer in the models themselves, but in the seamless interfaces that aggregate them. If you want to protect your business from vendor lock-in and position your team for ultimate flexibility, it is time to rethink your approach.
Read my full blog post to dive into why the future of AI belongs to the aggregators, and how your business can strategically capitalize on this shift.
We spend an enormous amount of time obsessing over the titans of the AI arms race. Every single week seems to bring a breathless new headline about OpenAI, Google, Anthropic, or Meta releasing a foundation model that edges out the competition on some obscure benchmark test. We find ourselves endlessly arguing over parameter counts, context windows, and raw reasoning capabilities, captivated by a multi-billion-dollar war unfolding in real-time.
