The findings indicate that this amino acid did not show a longitudinal decline with age. Taurine, a popular amino acid known for its role in energy drinks and supplements, may not be the aging breakthrough some hoped for. In a new study, scientists at the National Institutes of Health (NIH) have di
A research team led by Prof. Chang Hong from the National Time Service Center (NTSC) of the Chinese Academy of Sciences (CAS) has developed a strontium optical lattice clock with both frequency stability and systematic uncertainty surpassing 2×10-18. This achievement places China among the global leaders in the field of optical lattice clock development.
The breakthrough aligns with the roadmap set by the 27th General Conference on Weights and Measures (CGPM) in 2022, which proposed redefining the SI unit of time—the second—by 2030. The resolution outlined rigorous performance benchmarks for next-generation optical clocks.
Strontium optical lattice clocks, known for their exceptional precision, have emerged as the most promising candidates for the redefinition, offering systematic uncertainties two orders of magnitude lower than those of the current cesium fountain clocks.
A team of roboticists at the University of Canberra’s Collaborative Robotics Lab, working with a sociologist colleague from The Australian National University, has found humans interacting with an LLM-enabled humanoid robot had mixed reactions. In their paper published in the journal Scientific Reports, the group describes what they saw as they watched interactions between an LLM-enabled humanoid robot posted at an innovation festival and reviewed feedback given by people participating in the interactions.
Over the past couple of years, LLMs such as ChatGPT have taken the world by storm, with some going so far as to suggest that the new technology will soon make many human workers obsolete. Despite such fears, scientists continue to improve such technology, sometimes employing it in new places—such as inside an existing humanoid robot. That is what the team in Australia did—they added ChatGPT to the interaction facilities of a robot named Pepper and then posted the robot at an innovation festival in Canberra, where attendees were encouraged to interact with it.
Before it was given an LLM, Pepper was already capable of moving around autonomously and interacting with people on a relatively simple level. One of its hallmarks is its ability to maintain eye contact. Such abilities, the team suggested, made the robot a good target for testing human interactions with LLM-enabled humanoid robots “in the wild.”
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Faster-than-light travel still seems like pure science fiction—but it could soon become a reality. Scientists have finally discovered a new way to travel at speeds ten times faster than light! Other research teams have made amazing breakthroughs in WARP technology, and in practice this could mean that in just 10 or 20 years we could have the first prototypes of spaceships capable of traveling enormous distances in ever shorter times.
Self-driving cars will soon be able to “think” like human drivers under complex traffic environments, thanks to a cognitive encoding framework built by a multidisciplinary research team from the School of Engineering at the Hong Kong University of Science and Technology (HKUST).
This innovation significantly enhances the safety of autonomous vehicles (AVs), reducing overall traffic risk by 26.3% and cutting potential harm to high-risk road users such as pedestrians and cyclists by an impressive 51.7%. Even the AVs themselves benefited, with their risk levels lowered by 8.3%, paving the way for a new framework to advance the automation of vehicle safety.
Existing AVs have one common limitation: their decision-making systems can only make pairwise risk assessments, failing to holistically consider interactions among multiple road users. This contrasts with a proficient driver who, for example, can skillfully navigate an intersection by prioritizing pedestrian protection while slightly compromising the safety of nearby vehicles. Once pedestrians are confirmed to be safe, the driver can then shift focus to nearby vehicles. Such risk management ability exhibited by humans is known as “social sensitivity.”
A research team from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences has developed a compact dynamic cantilever magnetometer with a diameter of just 22 mm, achieving magnetic moment sensitivity on the order of 10-17 A·m2.
“This breakthrough fills a technological gap in ultra-sensitive magnetic measurements for small, low-dimensional materials under high magnetic fields,” said Prof. Wang Ning, a member of the team.
The study was published in Review of Scientific Instruments.
At Phobio, well-implemented AI hasn’t just made us faster—it’s made us sharper, more creative and more strategic. When routine tasks are streamlined, people have time to think deeply about customers, competition and innovation.
Closing Thoughts
AI isn’t coming to take your job. But someone who knows how to use it might.
Cambridge researchers created a quantum sensor using hBN, offering improved magnetic field detection over diamond-based sensors with new imaging possibilities. A team of physicists at the University of Cambridge has achieved a major breakthrough in quantum sensing by showing that spin defects in
A lung cancer patient at UCLH is the first to receive a novel cancer vaccine designed to prime the immune system to recognise and fight cancer cells.
IN A NUTSHELL 🌞 Solar hydrogen generation could revolutionize clean energy by converting sunlight into hydrogen fuel. 💡 Researchers discovered that elevating electrolyte temperatures boosts bismuth-vanadate electrode activity by 40%. 🔍 The study provides new insights into how temperature affects solar water splitting and metal-oxide cell performance. 🚀 Advancements in this field may accelerate the
