Menu

Blog

Page 2958

Apr 27, 2023

Meta experiments with AI chatbots for WhatsApp and Messenger

Posted by in category: robotics/AI

In Big Tech’s AI chatbot race, Meta may be up to the task.

OpenAI started the chatbot trend with ChatGPT, Microsoft brought it to search with the Bing chatbot, and Google is following suit with Bard and Project Magi.

Apr 27, 2023

Astronomers solve the 60-year mystery of quasars, the most powerful objects in the universe

Posted by in categories: cosmology, futurism

Wow. Spoiler, quasars are galaxies colliding and part of the gases reacting with black holes in the middle of the galaxies. Does that mean we’re all doomed though we could galaxy hop in the distant future I suppose. And the rest of the dispersed gases will take millions or was it billions of years to make new stars again. Kinda reminds me of human life. We are born only to return to the Earth.


Scientists have unlocked one of the biggest mysteries of quasars—the brightest, most powerful objects in the universe—by discovering that they are ignited by galaxies colliding.

First discovered 60 years ago, quasars can shine as brightly as a trillion stars packed into a volume the size of our solar system. In the decades since they were first observed, what could trigger such powerful activity has remained a mystery. New work led by scientists at the Universities of Sheffield and Hertfordshire has now revealed that it is a consequence of galaxies crashing together.

Continue reading “Astronomers solve the 60-year mystery of quasars, the most powerful objects in the universe” »

Apr 27, 2023

‘A gravidez fora do corpo está perto de se tornar realidade’, por Dagomir Marquezi

Posted by in categories: ethics, geopolitics, transhumanism

You can only read this with chrome or a browser that translates to English unless you speak Portuguese. Fascinating read about artificial uteruses in the possible future bought to bring peace to the abortion debate or not, and as a safety measure for an apocalyptic event. This was shared by Zoltan, I think that’s his name, a transhumanist that at one time was hoping to be the first transhumanist elected as president and to base decisions on science or something like that. It’s been a while but he wanted equality and ethics through science/transhumanists goals.


O útero artificial está chegando, para o bem e para o mal. Feministas radicais já lutam pelo direito de matar seus fetos.

Continue reading “‘A gravidez fora do corpo está perto de se tornar realidade’, por Dagomir Marquezi” »

Apr 27, 2023

The Efficiency of Tandem Molecular Machines

Posted by in category: nanotechnology

Machines that consist of two coupled biomolecules trade thermodynamic efficiency for operating speed.

Apr 27, 2023

Stretching without Buckling

Posted by in categories: mathematics, transportation

Liquid-crystal elastomers (LCEs) are shape-shifting materials that stretch or squeeze when stimulated by an external input such as heat, light, or a voltage. Designing these materials to produce desired shapes is a challenging math problem, but Daniel Castro and Hillel Aharoni from the Weizmann Institute of Science, Israel, have now provided an analytical solution for flat materials that shape-shift within a single plane—like font-changing letters on a page [1]. Such “planar” designs could help in producing rods that change their cross section (from, say, round to square) without buckling.

LCEs consist of networks of polymer fibers containing liquid-crystal molecules. When exposed to a stimulus, the molecules align in a way that causes the material to shrink or extend in a predefined direction—called the director. Researchers can design an LCE by choosing the director orientation at each point in the material. However, calculating the “director field” for an arbitrary shape change is difficult, so approximate methods are typically used.

Castro and Aharoni focused on a specific design problem: how to create an LCE that stretches only in two dimensions. These planar LCEs often suffer from residual stress that causes the material to wrinkle or buckle out of the plane. The researchers showed that finding a buckle-free design is similar to a well-known mathematical problem that has been studied in other contexts, such as minimizing the mass of load-carrying structures. Taking inspiration from these previous studies, Castro and Aharoni provided a method for exactly deriving the director field for any desired planar LCE. “Our results could be readily implemented by a wide range of experimentalists, as well as by engineers and designers,” Aharoni says.

Apr 27, 2023

Metamaterial Provides Underwater Stealth

Posted by in categories: genetics, information science

A lightweight structure made of rubber and metal layers can provide an object with underwater acoustic stealth over a broad frequency range.

An acoustic “cloak” could hide an underwater object from detection by sonar devices or by echolocating marine animals. Much like camouflage clothing allows figures to fade into a background, acoustic camouflage can make an object indistinguishable from the surrounding water. Underwater acoustic cloaks have previously been demonstrated, but they typically work over a narrow range of frequencies or are too bulky to be practical. Now Hao-Wen Dong at the Beijing Institute of Technology and colleagues demonstrate a lightweight, broadband cloak made of a thin shell of layered material. The cloak achieves acoustic stealth by both blocking the reflection of sonar pings off the surface and preventing the escape of sound generated from within the cloaked object [1].

Dong and colleagues designed a 4-cm-thick structure—combining an outer rubber layer and a “metamaterial” made of porous aluminum—which covered a steel plate. Using a genetic algorithm, they optimized the metamaterial’s elastic properties to tailor the interaction with underwater sound waves. Specifically, the metamaterial converts impinging longitudinal sound waves, which can travel long distances underwater, to transverse sound waves, which cannot propagate through water. These transverse waves get trapped in the rubber layer, where they get absorbed, eliminating reflected and transmitted waves simultaneously. The researchers built and tested a prototype cloak, confirming that it behaved as predicted. In particular, it absorbed 80% of the energy of incoming sound waves while offering 100-fold attenuation of acoustic noise produced on the side of the steel plate.

Apr 27, 2023

Bringing Interferometric Imaging into the X-Ray Regime

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

The experimental realization of a recently proposed technique points to new possibilities for imaging molecules using x rays.

Hanbury Brown and Twiss (HBT) interferometry [1] is a versatile technique widely used in various fields of physics, such as astronomy, quantum optics, and particle physics. By measuring the correlation of photon arrival times on two detectors as a function of the photons’ spatial separation, HBT interferometry enables the determination of the size and spatial distribution of a light source. Recently, a novel x-ray imaging technique based on the HBT method was proposed to image the spatial arrangement of heavy elements in a crystal or molecule by inducing those elements to fluoresce at x-ray wavelengths [2].

Apr 27, 2023

Turbulence in Collisionless Cosmic Plasmas

Posted by in categories: computing, cosmology, particle physics

New computer simulations show that wave-particle interactions endow thin plasmas with an effective viscosity that regulates their turbulent motions and heating.

Most of the regular matter in the Universe is plasma, an ebullient state characterized by charged particles interacting collectively with electromagnetic fields. When individual particles collide on scales much shorter than those of bulk plasma motions, the latter are described well by a 3D fluid theory: magnetohydrodynamics. That condition prevails in the interiors of stars and planets and in protoplanetary accretion disks. But many hot, low-density astrophysical plasma flows are only weakly collisional. Accounting for stellar winds, accretion around black holes, and the motions of the plasma that pervades intergalactic space requires a statistical kinetic description of the particle positions and velocities in a 6D space. Numerical simulations by Lev Arzamasskiy of the Institute of Advanced Study in Princeton, New Jersey, and his colleagues [1] shed new light on magnetized kinetic turbulence in such plasmas.

Apr 27, 2023

Genomes from 240 mammalian species reveal what makes the human genome unique

Posted by in categories: biotech/medical, evolution, existential risks, genetics, health

Over the past 100 million years, mammals have adapted to nearly every environment on Earth. Scientists with the Zoonomia Project have been cataloging the diversity in mammalian genomes by comparing DNA sequences from 240 species that exist today, from the aardvark and the African savanna elephant to the yellow-spotted rock hyrax and the zebu.

This week, in several papers in a special issue of Science, the Zoonomia team has demonstrated how can not only shed light on how certain species achieve extraordinary feats, but also help scientists better understand the parts of our genome that are functional and how they might influence health and disease.

In the new studies, the researchers identified regions of the genomes, sometimes just single letters of DNA, that are most conserved, or unchanged, across mammalian species and millions of years of evolution—regions that are likely biologically important. They also found part of the genetic basis for uncommon mammalian traits such as the ability to hibernate or sniff out faint scents from miles away. And they pinpointed species that may be particularly susceptible to extinction, as well as genetic variants that are more likely to play causal roles in rare and common human diseases.

Apr 27, 2023

DNA methylation markers for increased risk of schizophrenia identified for first time in newborns

Posted by in categories: biotech/medical, neuroscience

An international research team led by investigators at Virginia Commonwealth University has identified for the first time markers that may indicate early in life if a person has susceptibility to schizophrenia.

The ability to predict the risk of developing later in life may allow early detection and intervention, which the researchers hope can reduce the impact of the disease on individuals, families and communities. Their results have been published in Molecular Psychiatry.

Schizophrenia is a serious psychiatric disorder that is most often detected in young adulthood. It affects as much as 1% of the and can cause debilitating effects such as a sense of losing touch with reality. People with the disorder are up to three times more likely to die early and often face discrimination, social isolation and debilitating physical illness, according to the World Health Organization.