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Mar 26, 2024

The Deepest We Have Ever Seen Into the Sun | SDO 4K

Posted by in category: space

How viewing the Sun in ultraviolet can uncover its secrets. Get a 20% discount on your next VisiSolar purchase when you use this link: https://bit.ly/49G6XhX

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Mar 25, 2024

Impacts of Reduced Snow Cover and Shifting Vegetation Patterns on Alpine Biodiversity

Posted by in categories: climatology, sustainability

“Declining winter snow cover is one of the most obvious and pronounced impacts of climate change in the Alps. Its effects on the functioning and biodiversity of alpine ecosystems are a major concern for people living in Alpine regions and beyond,” said Dr. Michael Bahn.


How can the impacts of climate change alter biodiversity in vast mountain ranges throughout the world? This is what a recent study published in Global Change Biology hopes to address as a team of international researchers investigated how decreased levels of vegetation and snow cover in the Alps due to climate change are having adverse effects on the region’s biodiversity. This study holds the potential to help scientists, legislators, and the public better understand the short-and long-term impacts of climate change on regions across the globe.

For the study, the researchers examined variances in soil grassland microbial nitrogen cycling within the Alps during the spring and autumn due to their warming temperatures that are exceedingly more than twice the global average. In the end, the researchers discovered that nitrogen uptake by plant organics were reduced in the spring and autumn by 70 percent and 82 percent, soil microbial biomass was reduced by 19 percent and 38 percent, and the number of harmful bacteria that could have adverse effects on nitrogen production increased 253 percent and 136 percent, respectively. Collectively, the researchers determined that climate change is having an adverse effect on nitrogen cycling within the Alps’ grasslands.

Continue reading “Impacts of Reduced Snow Cover and Shifting Vegetation Patterns on Alpine Biodiversity” »

Mar 25, 2024

Engineering household robots to have a little common sense

Posted by in category: robotics/AI

MIT engineers aim to give robots a bit of common sense when faced with situations that push them off their trained path, so they can self-correct after missteps and carry on with their chores. The team’s method connects robot motion data with the common sense knowledge of large language models, or LLMs.

Mar 25, 2024

Inside Nvidia HQ: Here’s What a $2 Trillion Company’s Office Looks Like

Posted by in categories: robotics/AI, space travel

Nvidia’s headquarters is now one of the most sought-after places to work. Spanning more than 1 million square feet combined, Nvidia’s space-ship-like buildings were designed with help from custom software powered by the AI chips that have made the company successful. WSJ gets a look inside. Photo: Nvidia.

Mar 25, 2024

It’s not just you: ChatGPT is down for many worldwide

Posted by in category: robotics/AI

Update added to the bottom of the article.

OpenAI’s ChatGPT is down for many people worldwide, with users facing multiple problems, including being unable to access their accounts, having their chat history come up empty, and the chat screens not loading properly.

When accessing ChatGPT, users may see a blank screen with “How can I help you today?” and, in some cases, a missing chat history.

Mar 25, 2024

Research team develops important building block for artificial cells

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

During cell division, a ring forms around the cell equator, which contracts to divide the cell into two daughter cells. Together with researchers from Heidelberg, Dresden, Tübingen and Harvard, Professor Jan Kierfeld and Lukas Weise from the Department of Physics at TU Dortmund University have succeeded for the first time in synthesizing such a contractile ring with the help of DNA nanotechnology and to uncover its contraction mechanism.

The results have been published in the journal Nature Communications (“Triggered contraction of self-assembled micron-scale DNA nanotube rings”).

In synthetic biology, researchers try to recreate crucial mechanisms of life in vitro, such as cell division. The aim is to be able to synthesize minimal cells. The research team led by Professor Kerstin Göpfrich from Heidelberg University has now synthetically reproduced contractile rings for cell division using polymer rings composed of DNA nanotubes.

Mar 25, 2024

The Best Qubits for Quantum Computing Might Just Be Atoms

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

In the search for the most scalable hardware to use for quantum computers, qubits made of individual atoms are having a breakout moment.

Mar 25, 2024

Translation software enables efficient DNA data storage

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

In support of a major collaborative project to store massive amounts of data in DNA molecules, a Los Alamos National Laboratory–led team has developed a key enabling technology that translates digital binary files into the four-letter genetic alphabet needed for molecular storage.

“Our software, the Adaptive DNA Storage Codec (ADS Codex), translates data files from what a computer understands into what biology understands,” said Latchesar Ionkov, a computer scientist at Los Alamos and principal investigator on the project. “It’s like translating from English to Chinese, only harder.”

DNA offers a compact way to store huge amounts of data cost-effectively. Los Alamos National Laboratory has developed ADS Codex to translate the 0s and 1s of digital computer files into the four-letter code of DNA.

Mar 25, 2024

Researchers develop new single-molecule transistor that uses quantum interference

Posted by in categories: computing, nanotechnology, quantum physics, space travel

An international team of researchers from Queen Mary University of London, the University of Oxford, Lancaster University, and the University of Waterloo have developed a new single-molecule transistor that uses quantum interference to control the flow of electrons. The transistor, which is described in a paper published in the Nature Nanotechnology (“Quantum interference enhances the performance of single-molecule transistors”), opens new possibilities for using quantum effects in electronic devices.

Transistor are the basic building blocks of modern electronics. They are used to amplify and switch electrical signals, and they are essential for everything from smartphones to spaceships. However, the traditional method of making transistors, which involves etching silicon into tiny channels, is reaching its limits.

As transistors get smaller, they become increasingly inefficient and susceptible to errors, as electrons can leak through the device even when it is supposed to be switched off, by a process known as quantum tunnelling. Researchers are exploring new types of switching mechanisms that can be used with different materials to remove this effect.

Mar 25, 2024

Quantum interference enhances the performance of single-molecule transistors

Posted by in categories: computing, quantum physics

An experimental demonstration of how destructive quantum interference effects can increase the performance of single-molecule field-effect transistors to reach levels similar to those of nanoelectronic transistors.

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