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Oct 6, 2020
Astronomers Directly Image Planet 63 Light-Years Away
Posted by Genevieve Klien in category: space
The last few decades of astronomical surveys have revealed several thousand exoplanets in the cosmos, but very few have ever been seen directly. We can only infer the presence of most exoplanets from their gravity or ability to block starlight. However, researchers using the Very Large Telescope (VLT) in Chile recently turned it toward a star 63 light-years away called Beta Pictoris to hunt for a gas giant (Beta Pictoris c), and they snapped an image of it.
Our current level of technology makes it almost impossible to image exoplanets directly. Compared with stars, planets are so dim that we usually can’t resolve them in the halo of light. Beta Pictoris c joins a list of less than two-dozen extrasolar worlds (including Pictoris b) that scientists have spied directly, and some of those are still highly contentious.
Scientists were able to get this new image thanks to all the interest in the Beta Pictoris system over the years. Beta Pictoris c and its sibling world Beta Pictoris b are less than two million years old. Pictoris b was discovered via direct imaging, which again, is quite rare. However, anomalies in its radial velocity prompted astronomers to look closer. Radial velocity analysis is a less common way of detecting exoplanets that relies on using telescopes to detect small wobbles in stars caused by the gravity of their planets. Just last year, a team discovered Beta Pictoris c while attempting to explain those anomalous radial velocity readings.
Oct 6, 2020
NASA is testing the first of its new moonwalking spacesuits
Posted by Genevieve Klien in category: space
What will astronauts wear on the big day when they step foot on the moon as the first humans to do so in more than 50 years?
Oct 6, 2020
How machine learning is powering collective pandemic intelligence
Posted by Muhammad Furqan in categories: biotech/medical, robotics/AI
From predicting viral load to identifying antiviral drugs, discover some of the AI projects working to fight COVID-19.
What can AI do in the race to contain COVID-19 and potential future pandemics? Discover how machine learning is powering collective pandemic intelligence.
Oct 6, 2020
Process for Regenerating Neurons in the Eye and Brain Identified
Posted by Genevieve Klien in categories: biotech/medical, neuroscience
Summary: Researchers have identified a network of genes in Zebrafish that regulate the process of determining whether certain neurons will regenerate.
Source: University of Notre Dame
The death of neurons, whether in the brain or the eye, can result in a number of human neurodegenerative disorders, from blindness to Parkinson’s disease. Current treatments for these disorders can only slow the progression of the illness, because once a neuron dies, it cannot be replaced.
Oct 6, 2020
Genetic Factor Discovery Enables Adult Skin to Regenerate Like a Newborn Baby’s
Posted by Quinn Sena in categories: biotech/medical, genetics, life extension
A newly identified genetic factor allows adult skin to repair itself like the skin of a newborn babe. The discovery by Washington State University researchers has implications for better skin wound treatment as well as preventing some of the aging process in skin.
In a study, published in the journal eLife on September 29, 2020, the researchers identified a factor that acts like a molecular switch in the skin of baby mice that controls the formation of hair follicles as they develop during the first week of life. The switch is mostly turned off after skin forms and remains off in adult tissue. When it was activated in specialized cells in adult mice, their skin was able to heal wounds without scarring. The reformed skin even included fur and could make goosebumps, an ability that is lost in adult human scars.
“We were able to take the innate ability of young, neonatal skin to regenerate and transfer that ability to old skin,” said Ryan Driskell, an assistant professor in WSU’s School of Molecular Biosciences. “We have shown in principle that this kind of regeneration is possible.”
Oct 6, 2020
Mercedes-Benz teases new EQS and EQE luxury electric vehicles
Posted by Genevieve Klien in categories: sustainability, transportation
Mercedes-Benz teased two new electric vehicle variants, the EQS and EQE, which will both come in sedan and SUV models. The automaker plans to release six new electric vehicles over the next two years.
Oct 6, 2020
Self-healing, self-monitoring chip rearranges circuit if damaged
Posted by Quinn Sena in category: computing
Circa 2013
A standard computer is a complex group of individual parts working together as a whole — RAM, some kind of data storage, a processor, and so on. When one of those integral parts breaks, the computer is rendered useless and the part must be replaced, but what if the computer could begin routing the broken part’s tasks through the parts that are still functional? Computers can’t do that just yet, but researchers have now managed to coax a microchip into doing so.
Oct 6, 2020
Verified quantum information scrambling
Posted by Quinn Sena in categories: computing, quantum physics
Circa 2019
Quantum scrambling is the dispersal of local information into many-body quantum entanglements and correlations distributed throughout an entire system. This concept accompanies the dynamics of thermalization in closed quantum systems, and has recently emerged as a powerful tool for characterizing chaos in black holes1,2,3,4. However, the direct experimental measurement of quantum scrambling is difficult, owing to the exponential complexity of ergodic many-body entangled states. One way to characterize quantum scrambling is to measure an out-of-time-ordered correlation function (OTOC); however, because scrambling leads to their decay, OTOCs do not generally discriminate between quantum scrambling and ordinary decoherence. Here we implement a quantum circuit that provides a positive test for the scrambling features of a given unitary process5,6. This approach conditionally teleports a quantum state through the circuit, providing an unambiguous test for whether scrambling has occurred, while simultaneously measuring an OTOC. We engineer quantum scrambling processes through a tunable three-qubit unitary operation as part of a seven-qubit circuit on an ion trap quantum computer. Measured teleportation fidelities are typically about 80 per cent, and enable us to experimentally bound the scrambling-induced decay of the corresponding OTOC measurement.