Typically, when a neutron decays, it splits into three particles: a proton, an electron, and an antineutrino. However, there’s another possible decay path involving just two particles: a hydrogen atom and a neutrino.
Artificial photosynthesis is a technology with immense potential that aims to emulate the natural photosynthetic process. The process of natural photosynthesis involves the conversion of solar energy into chemical energy, which is stored in organic compounds. Catalysis is an essential aspect of artificial photosynthesis, as it facilitates the reactions that convert solar energy into chemical energy. In this review, we aim to provide an extensive overview of recent developments in the field of artificial photosynthesis by catalysis. We will discuss the various catalyst types used in artificial photosynthesis, including homogeneous catalysts, heterogeneous catalysts, and biocatalysts.
Proton beams with giga-electron-volt (GeV) energies—once thought to be achievable only with massive particle accelerators—may soon be generated in compact setups thanks to a breakthrough by researchers at The University of Osaka.
A team led by Professor Masakatsu Murakami has developed a novel concept called micronozzle acceleration (MNA). By designing a microtarget with tiny nozzle-like features and irradiating it with ultraintense, ultrashort laser pulses, the team successfully demonstrated—through advanced numerical simulations—the generation of high-quality, GeV-class proton beams: a world-first achievement.
The article, “Generation of giga-electron-volt proton beams by micronozzle acceleration,” was published in Scientific Reports.
A research team has developed autonomous driving software that allows inexpensive sensors to detect transparent obstacles such as glass walls, providing an alternative to high-performance sensors. This technology can be used in existing robots, negating the need for additional equipment while ensuring detection performance that is equal to that offered by expensive conventional equipment.
The paper is published in the journal IEEE Transactions on Instrumentation and Measurement. The team was led by Professor Kyungjoon Park at the Department of Electrical Engineering and Computer Science, Daegu Gyeongbuk Institute of Science & Technology.
Autonomous driving robots typically use LiDAR sensors to detect their surroundings and navigate. Functioning as “laser eyes,” expensive LiDAR sensors determine distance and structure by projecting light and measuring reflection time.
Space: Northrop Grumman is a space pioneer, supporting government, civil and commercial customers in solving their biggest challenges
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Our forward-leaning, innovative spirit is backed by a legacy of expertise that began at the dawn of the space age.
Our mission experience in space runs deep, we know our customers well, and our capabilities are unmatched. This is what allows us to provide reliable, agile and affordable space solutions to best serve our customers.
From defending freedom to advancing human discovery, we are defining what is possible in space every day.
A new AI-powered method is changing how scientists measure the universe. Developed by researchers at the Flatiron Institute and their partners, this technique offers a far more accurate way to determine the cosmos’ key properties.
The approach, known as Simulation-Based Inference of Galaxies (SimBIG), pulls hidden clues from galaxy patterns. It goes beyond older techniques by uncovering information that was previously out of reach.
Using AI, the team cut uncertainty in critical parameters—like how clumpy matter is in the universe—to less than half. These results match closely with other cosmic measurements, including the light from the universe’s earliest moments.
Memory is strange. It sharpens, fades, twists, and sometimes misleads. These seven recent studies uncover how emotion, stress, and biology shape what we remember—and what we forget.
MIT’s breakthrough in fusion tech has brought the artificial sun closer to reality: clean, infinite energy inside next-gen reactors to power the United States.
“This Thing’s Flat and Furious”: New 2D Material Unveiled With Game-Changing Power for Electrochemical Energy Storage
Posted in chemistry, energy, quantum physics | Leave a Comment on “This Thing’s Flat and Furious”: New 2D Material Unveiled With Game-Changing Power for Electrochemical Energy Storage
IN A NUTSHELL 🔬 Rice University researchers discovered copper boride, a novel two-dimensional material with transformative potential. 🧪 The study highlights copper boride’s strong covalent bonding and distinct electronic properties, setting it apart from other 2D materials. 🔋 This breakthrough could significantly impact electrochemical energy storage and applications in quantum information technology. 🌟 The discovery
New research reveals that everyday niceness—like warm tones, smiles, and active listening—can significantly improve teamwork and increase willingness to cooperate.