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Jun 29, 2024

Major Breakthrough In Human Gene Editing Discovered

Posted by in categories: bioengineering, biotech/medical, genetics

Aussie scientists have developed a new gene-editing technique that could be a major breakthrough. It could allow scientists to make accurate and more significant changes to DNA.

#Science #GeneEditing #genes

Jun 29, 2024

Beyond Gravity: UC Berkeley’s Quantum Leap in Dark Energy Research

Posted by in categories: cosmology, particle physics, quantum physics

Nice!


Researchers at UC Berkeley have enhanced the precision of gravity experiments using an atom interferometer combined with an optical lattice, significantly extending the time atoms can be held in free fall. Despite not yet finding deviations from Newton’s gravity, these advancements could potentially reveal new quantum aspects of gravity and test theories about exotic particles like chameleons or symmetrons.

Twenty-six years ago physicists discovered dark energy — a mysterious force pushing the universe apart at an ever-increasing rate. Ever since, scientists have been searching for a new and exotic particle causing the expansion.

Continue reading “Beyond Gravity: UC Berkeley’s Quantum Leap in Dark Energy Research” »

Jun 29, 2024

How Do Our Memories Last a Lifetime? New Study Offers a Biological Explanation

Posted by in categories: biological, neuroscience

Whether it’s a first-time visit to a zoo or when we learned to ride a bicycle, we have memories from our childhoods kept well into adult years. But what explains how these memories last nearly an entire lifetime?

A new study in the journal Science Advances, conducted by a team of international researchers, has uncovered a biological explanation for long-term memories. It centers on the discovery of the role of a molecule, KIBRA, that serves as a “glue” to other molecules, thereby solidifying memory formation.

“Previous efforts to understand how molecules store long-term memory focused on the individual actions of single molecules,” explains André Fenton, a professor of neural science at New York University and one of the study’s principal investigators. “Our study shows how they work together to ensure perpetual memory storage.”

Jun 29, 2024

New computational microscopy technique provides more direct route to crisp images

Posted by in categories: biotech/medical, computing, information science

For hundreds of years, the clarity and magnification of microscopes were ultimately limited by the physical properties of their optical lenses. Microscope makers pushed those boundaries by making increasingly complicated and expensive stacks of lens elements. Still, scientists had to decide between high resolution and a small field of view on the one hand or low resolution and a large field of view on the other.

In 2013, a team of Caltech engineers introduced a called FPM (for Fourier ptychographic microscopy). This technology marked the advent of computational microscopy, the use of techniques that wed the sensing of conventional microscopes with that process detected information in new ways to create deeper, sharper images covering larger areas. FPM has since been widely adopted for its ability to acquire high-resolution images of samples while maintaining a large field of view using relatively inexpensive equipment.

Now the same lab has developed a new method that can outperform FPM in its ability to obtain images free of blurriness or distortion, even while taking fewer measurements. The new technique, described in a paper that appeared in the journal Nature Communications, could lead to advances in such areas as biomedical imaging, digital pathology, and drug screening.

Jun 29, 2024

New method for generating monochromatic light in storage rings

Posted by in categories: particle physics, space

When ultrafast electrons are deflected, they emit light—synchrotron radiation. This is used in so-called storage rings in which magnets force the particles onto a closed path. This light is longitudinally incoherent and consists of a broad spectrum of wavelengths.

Its high brilliance makes it an excellent tool for . Monochromators can be used to pick out individual wavelengths from the spectrum, but this reduces the radiant power by many orders of magnitude to values of a few watts only.

But what if a were instead to deliver monochromatic, with outputs of several kilowatts, analogous to a ? Physicist Alexander Chao and his doctoral student Daniel Ratner found an answer to this challenge in 2010: if the orbiting in a storage ring become shorter than the wavelength of the light they emit, the emitted radiation becomes coherent and therefore millions of times more powerful.

Jun 29, 2024

Strong AI Articles

Posted by in category: robotics/AI

Strong A.I — Let’s look at the facts as illustrated by classic science fiction.

Jun 29, 2024

AI scientist Ray Kurzweil: ‘We are going to expand intelligence a millionfold by 2045’

Posted by in categories: Ray Kurzweil, robotics/AI, singularity

The American computer scientist and techno-optimist Ray Kurzweil is a long-serving authority on artificial intelligence (AI). His bestselling 2005 book, The Singularity Is Near, sparked imaginations with sci-fi like predictions that computers would reach human-level intelligence by 2029 and that we would merge with computers and become superhuman around 2045, which he called “the Singularity”. Now, nearly 20 years on, Kurzweil, 76, has a sequel, The Singularity Is Nearer – and some of his predictions no longer seem so wacky. Kurzweil’s day job is principal researcher and AI visionary at Google. He spoke to the Observer in his personal capacity as an author, inventor and futurist.

Why write this book? The Singularity Is Near talked about the future, but 20 years ago, when people didn’t know what AI was. It was clear to me what would happen, but it wasn’t clear to everybody. Now AI is dominating the conversation. It is time to take a look again both at the progress we’ve made – large language models (LLMs) are quite delightful to use – and the coming breakthroughs.

Jun 29, 2024

Japan Unveils 310-Mile Automated Conveyor Belt to Carry Freight of 25,000 Trucks Daily Between Tokyo and Osaka

Posted by in categories: internet, robotics/AI, space

“Automated logistics roads are designed to get the most out of road space by utilizing hard shoulders, median strips, and tunnels beneath the roadway,” Muramatsu explained.

ALSO READ: A New 6G device is Created by Japan That is 20 times Faster Than 5G Technology

The project involves installing automated conveyor belts in tunnels beneath major highways, on above-ground tracks in the middle of roads, and along hard shoulders. This innovative approach aims to optimize existing road space and enhance freight movement efficiency.

Jun 29, 2024

Digit: Humanoid robot employed to move underwear boxes at Spanx store

Posted by in category: robotics/AI

GXO and Agility Robotics debut humanoid Digit robots in a Spanx warehouse, a first for commercial robots-as-a-service (RaaS) deployment.

Jun 29, 2024

AI models can ‘transcend’ their training data, say researchers

Posted by in category: robotics/AI

Transcend us, AI friends!

👉 Researchers from Harvard University, UC Santa Barbara, and Princeton University show in a new study that generative AI models can outperform their human trainers through “transcendence”


New research shows that generative AI models can surpass their human trainers. The researchers call this phenomenon “transcendence” and demonstrate it using the example of chess.

Continue reading “AI models can ‘transcend’ their training data, say researchers” »

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