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Sep 5, 2020
Low-temperature plasma device may lead to more efficient engines
Posted by Quinn Sena in categories: biotech/medical, food, nanotechnology
Low-temperature plasmas offer promise for applications in medicine, water purification, agriculture, pollutant removal, nanomaterial synthesis and more. Yet making these plasmas by conventional methods takes several thousand volts of electricity, says David Go, an aerospace and mechanical engineer at the University of Notre Dame. That limits their use outside high-voltage power settings.
In work supported by the U.S. National Science Foundation, Go and a team of researchers conducted research that explores making plasma devices that can be operated without electrical powerâthey need only human or mechanical energy.
Their paper in Applied Physics Letters introduces a strategy the scientists call âenergy-conversion plasmaâ as an alternative to producing âtransient sparkâ discharges without the need for a very high-voltage power supply.
Sep 5, 2020
This Gene May Be Why Women with Alzheimerâs Disease Live Longer
Posted by Genevieve Klien in categories: biotech/medical, neuroscience, sex
Women with Alzheimerâs disease tend to live longer than men with the disease â and a new study suggests that a gene on the X chromosome may help explain why.
Each person typically has one pair of sex chromosomes in each cell of their body. People assigned female at birth typically have two X chromosomes, while people assigned male at birth typically have one X chromosome and one Y chromosome.
Researchers say a gene called KDM6A may explain why women with Alzheimerâs disease tend to live longer than men with the same condition.
Sep 5, 2020
This know-it-all AI learns by reading the entire web nonstop
Posted by Genevieve Klien in category: robotics/AI
Back in July, OpenAIâs latest language model, GPT-3, dazzled with its ability to churn out paragraphs that look as if they could have been written by a human. People started showing off how GPT-3 could also autocomplete code or fill in blanks in spreadsheets.
In one example, Twitter employee Paul Katsen tweeted âthe spreadsheet function to rule them all,â in which GPT-3 fills out columns by itself, pulling in data for US states: the population of Michigan is 10.3 million, Alaska became a state in 1906, and so on.
Except that GPT-3 can be a bit of a bullshitter. The population of Michigan has never been 10.3 million, and Alaska became a state in 1959.
Sep 5, 2020
Moleculeâs electronic structure is simulated on a quantum computer
Posted by Genevieve Klien in categories: chemistry, computing, quantum physics
Simulating chemical processes is one of the most promising applications of quantum computers, but problems with noise have prevented nascent quantum systems from outperforming conventional computers on such tasks. Now, researchers at Google have taken a major step towards this goal by using the most powerful quantum computer yet built to successfully implement a protocol for calculating the electronic structure of a molecule. The results may form a blueprint for complex, useful calculations on quantum computers affected by noise.
In October 2019, Google announced to great fanfare that its 53-qubit Sycamore computer had achieved quantum advantage. This means that a quantum computer can solve at least one problem much faster than any conventional supercomputer. However, Google researchers openly acknowledged that the problem Sycamore solved (sampling the outcome of a random quantum circuit) is easy for a quantum computer but difficult for a conventional supercomputer â and had little practical use.
What researchers would really like to do is use quantum computers to solve useful problems more effectively than possible with conventional computers: âSycamore is extremely programmable and, in principle, you really can run any algorithm on itâŠIn this sense, itâs a universal quantum computer,â explains team member Ryan Babbush of Google Research, âHowever, thereâs a heavy caveat: thereâs still noise affecting the device and as a result weâre still limited in the size of circuit we can implement.â Such noise, which results from classical sources such as thermal interference, can destroy the fragile superpositions crucial to quantum computation: âWe can implement a completely universal circuit before the noise catches up and eventually destroys the computation,â says Babbush.
Sep 5, 2020
Using CRISPR to improve viral vectors for gene therapy
Posted by Genevieve Klien in category: biotech/medical
To overcome preexisting immunity that cripples the adenovirus vectors used in gene therapy and vaccines, scientists at the University of Pittsburgh created a CRISPR-based system that briefly suppresses the genes that cause the problem. The method improved gene therapy uptake in mice and is being developed by startup SafeGen.
Sep 5, 2020
Scientists Reconstruct Body Dimensions of Megalodon
Posted by Genevieve Klien in category: futurism
A 16-m- (52.5-foot) long megalodon had a head 4.65 m (15.3 feet) long, a dorsal fin 1.62 m (5.3 feet) tall and a tail 3.85 m (9.4 feet) high, according to a study led by researchers from the University of Bristol and Swansea University.
Sep 5, 2020
Depression Has Skyrocketed During the COVID-19 Pandemic, Study Says
Posted by Chuck Black in categories: biotech/medical, neuroscience
Sep 5, 2020
Giant 3D-printer builds a TWO-STORY house in one piece
Posted by Kelvin Dafiaghor in categories: 3D printing, habitats
Sep 5, 2020
DNA Double Strand Breaks And Repair Systems
Posted by Myra Sehar in category: biotech/medical
This Video Explains The DNA Double Strand Breaks And Homologous Recombination (HR) Repair System Versus Non-homologous End-Joining (NHEJ)