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Oct 16, 2024

Enhanced wavelength conversion paves the way for more efficient quantum information transfer

Posted by in category: quantum physics

Advancements in quantum information technology are paving the way for faster and more efficient data transfer. A key challenge has been ensuring that qubits, the fundamental units of quantum information, can be transferred between different wavelengths without losing their essential properties, such as coherence and entanglement.

Oct 16, 2024

Janus-like metasurface technology shows different optical responses according to the direction of light

Posted by in categories: innovation, security

Metasurface technology is an advanced optical technology that is thinner, lighter, and more capable of precisely controlling light through nanometer-sized artificial structures than conventional technologies. KAIST researchers have overcome the limitations of existing metasurface technologies and successfully designed a Janus metasurface capable of perfectly controlling asymmetric light transmission. By applying this technology, they have also proposed an innovative method to significantly enhance security by only decoding information under specific conditions.

Oct 16, 2024

In a fusion device plasma, a steep ion temperature gradient slows the growth of magnetic islands

Posted by in categories: futurism, nuclear energy

Future fusion power plants will require good plasma confinement to sustain reactions and generate energy. One way to contain plasma for fusion reactions is to use a tokamak, a device that applies magnetic fields to “bottle” plasma. However, magnetic islands, a type of instability in the plasma, can destroy the confining magnetic field if they grow large enough.

Oct 16, 2024

Researchers unveil pressure-tuned superconductivity in natural bulk heterostructure 6R-TaS₂

Posted by in category: evolution

By combining comprehensive high-pressure measurements and first-principles calculations, a research group has discovered the pressure-induced unusual evolution of superconductivity (SC) and exotic interplay between SC and charge-density-wave (CDW) order in a natural bulk van der Waals heterostructure.

Oct 16, 2024

Spin-wave reservoir chips can enhance edge computing

Posted by in categories: materials, robotics/AI

Reservoir computing (RC) has a few benefits over other artificial neural networks, including the reservoir that gives this technique its name. The reservoir functions mainly to nonlinearly transform input data more quickly and efficiently. Spin waves, propagating wave-like disturbances arising from magnetic interactions, can traverse through a material. These excitations are driven by the spin of electrons.

Oct 16, 2024

New light-induced material shows powerful potential for quantum applications

Posted by in categories: particle physics, quantum physics, solar power, sustainability

Many scientists are studying different materials for their potential use in quantum technology. One important feature of the atoms in these materials is called spin. Scientists want to control atomic spins to develop new types of materials, known as spintronics. They could be used in advanced technologies like memory devices and quantum sensors for ultraprecise measurements.

In a recent breakthrough, researchers at the U.S. Department of Energy’s (DOE) Argonne National Laboratory and Northern Illinois University discovered that they could use light to detect the in a class of materials called perovskites (specifically in this research methylammonium lead iodide, or MAPbI3). Perovskites have many potential uses, from solar panels to quantum technology.

The work is published in the journal Nature Communications.

Oct 16, 2024

Brain delays could be a computational advantage, researchers say

Posted by in categories: biological, computing, neuroscience

Biological components are less reliable than electrical ones, and rather than instantaneously receive the incoming signals, the signals arrive with a variety of delays. This forces the brain to cope with said delays by having each neuron integrate the incoming signals over time and fire afterwards, as well as using a population of neurons, instead of one, to overcome neuronal cells that temporarily don’t fire.

Oct 15, 2024

Dark matter does not exist and the universe is 27 billion years old, study claims

Posted by in category: cosmology

Research suggests dark matter may not exist, and the universe’s age is approximately 27 billion years, according to a recent study on Earth.com


The universe has always held mysteries that spark our curiosity. As we currently understand it, the fabric of the universe comprises three primary components: ‘normal matter,’ ‘dark energy,’ and ‘dark matter.’ However, new research is turning this established model on its head.

Enter Rajendra Gupta, a seasoned physics professor who isn’t afraid to question the status quo. With years of research under his belt, Gupta is shaking up our understanding of the universe.

Continue reading “Dark matter does not exist and the universe is 27 billion years old, study claims” »

Oct 15, 2024

From Space to Earth: The Vital Role of Volatiles in Life’s Origin

Posted by in categories: materials, space

How did life on Earth begin, and were the ingredients for life already on Earth or were they brought here from space? This is what a recent study published in Science Advances hopes to address as a team of researchers from Imperial College London and the University of Cambridge investigated how ancient meteorites could have deposited large amounts of zinc on Earth, resulting in the development of volatile elements to form the building blocks of life. This study holds the potential to help researchers better understand the conditions for life to have emerged on the Earth long ago, and potentially worlds throughout the solar system and beyond.

“One of the most fundamental questions on the origin of life is where the materials we need for life to evolve came from,” said Dr. Rayssa Martins, who is a postdoctoral research associate at the University of Cambridge and lead author of the study. “If we can understand how these materials came to be on Earth, it might give us clues to how life originated here, and how it might emerge elsewhere.”

For the study, the researchers analyzed zinc obtained from several meteorites to ascertain how the Earth got its zinc during its formation, which is estimated to have lasted tens of millions of years. In the end, the researchers estimate that while “melted” planetesimals contributed to approximately 70 percent of the Earth’s overall mass, they only contributed approximately 10 percent of the Earth’s zinc, which came from “unmelted” planetesimals. As noted, zinc contains volatile elements, which include oxygen, nitrogen, hydrogen, and carbon, or the essential building blocks of life as we know it. Along with helping researchers better understand how life formed and evolved on Earth, this could also lead to greater insight into how life might form and evolve on other worlds, as well.

Oct 15, 2024

Go Live and tell your story to 1000s of AI Creators

Posted by in categories: futurism, robotics/AI

I’ll be speaking on @Ploutos at 4pm UK time (3pm GMT) this Friday, 18th Oct, on “AI and the future of human enhancement”. Choose your Ploutos Creator level (Free, Plus, or Pro) to listen live to this conversation.


A social marketplace for AI creators to Create, Exhibit and Monetize their work.

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