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Sep 24, 2019

The Los Alamos nuclear weapons lab just bought a 5,000-qubit quantum computer

Posted by in categories: business, computing, military, quantum physics

D-Wave today announced its next generation “Advantage” quantum computer system. It’ll pack a whopping 5,000 qubits and myriad improvements to processing speed and power. And the Los Alamos National Laboratory in New Mexico will be among the first to have access.

According to a press release from D-Wave, the new Advantage system improves on the previous generation’s 2000Q model – which sports a paltry-by-comparison 2,048 qubits – in nearly every conceivable way:

Designed to speed the development of commercial quantum applications, the Advantage quantum system will power a new hardware and software platform that will accelerate and ease the delivery of quantum computing applications. Reflecting years of customer feedback, the platform captures users’ priorities and business requirements and will deliver significant performance gains and greater solution precision.

Sep 24, 2019

New psychosis treatment targets genetic mutation instead of symptoms

Posted by in categories: genetics, innovation

New research describes the case study of two people with psychotic conditions who benefited from an innovative treatment for psychosis.

Sep 24, 2019

Nanoelectrodes record thousands of connected mammalian neurons from inside

Posted by in categories: computing, neuroscience

A nanoelectrode array that can simultaneously obtain intracellular recordings from thousands of connected mammalian neurons in vitro.


How our brain cells, or neurons, use electrical signals to communicate and coordinate for higher brain function is one of the biggest questions in all of science.

For decades, researchers have used electrodes to listen in on and record these signals. The patch clamp electrode, an electrode in a thin glass tube, revolutionized neurobiology in the 1970’s with its ability to penetrate a neuron and to record quiet but telltale signals from inside the cell. But this tool lacks the ability to record a ; it can measure only about 10 cells in parallel.

Continue reading “Nanoelectrodes record thousands of connected mammalian neurons from inside” »

Sep 24, 2019

Nonviral gene therapy to speed up cancer research

Posted by in categories: biotech/medical, materials

With metal organic frameworks.


The nonviral, bioinspired gene delivery method developed by researchers at RMIT University has proven effective in laboratory tests and is safer than standard viral approaches.

Widely considered the next frontier of , gene therapy involves introducing new genes into a patient’s cells to replace missing or malfunctioning ones that cause disease.

Continue reading “Nonviral gene therapy to speed up cancer research” »

Sep 24, 2019

Green tea could hold the key to reducing antibiotic resistance

Posted by in category: biotech/medical

Scientists at the University of Surrey have discovered that a natural antioxidant commonly found in green tea can help eliminate antibiotic resistant bacteria.

The study, published in the Journal of Medical Microbiology, found that epigallocatechin (EGCG) can restore the activity of aztreonam, an antibiotic commonly used to treat infections caused by the bacterial pathogen Pseudomonas aeruginosa.

P. aeruginosa is associated with serious respiratory tract and bloodstream infections and in recent years has become resistant to many major classes of antibiotics. Currently a combination of antibiotics is used to fight P. aeruginosa. However, these infections are becoming increasingly difficult to treat, as resistance to last line antibiotics is being observed.

Sep 24, 2019

“Her” is one of the top 20 artificial intelligence films – in pictures for The Guardian

Posted by in categories: entertainment, robotics/AI

“Her” is one of the top 20 artificial intelligence films — in pictures for The…

Sep 24, 2019

Theorists discover the ‘Rosetta Stone’ for neutrino physics

Posted by in categories: engineering, mathematics, particle physics, robotics/AI

Linear algebra is a field of mathematics that has been thoroughly investigated for many centuries, providing invaluable tools used not only in mathematics, but also across physics and engineering as well as many other fields. For years physicists have used important theorems in linear algebra to quickly calculate solutions to the most complicated problems.

This August, three theoretical physicists—Peter Denton, a scientist at Brookhaven National Laboratory and a scholar at Fermilab’s Neutrino Physics Center; Stephen Parke, at Fermilab; and Xining Zhang, a University of Chicago graduate student working under Parke—turned the tables and, in the context of particle physics, discovered a fundamental in .

The identity relates eigenvectors and eigenvalues in a direct way that hadn’t been previously recognized. Eigenvectors and eigenvalues are two important ways of reducing the properties of a matrix to their most basic components and have applications in many math, physics and real-world contexts, such as in analyzing vibrating systems and facial recognition programs. The eigenvectors identify the directions in which a transformation occurs, and the eigenvalues specify the amount of stretching or compressing that occurs.

Sep 24, 2019

NASA Wants a New Space Telescope to Protect Us All from Dangerous Asteroids

Posted by in categories: asteroid/comet impacts, existential risks

NASA is pursuing a new space telescope tailored to spotting potentially hazardous asteroids.

Sep 24, 2019

A new way to turn heat into energy

Posted by in categories: energy, engineering, nanotechnology, space

An international team of scientists has figured out how to capture heat and turn it into electricity.

The discovery, published last week in the journal Science Advances, could create more efficient generation from heat in things like car exhaust, interplanetary space probes and .

“Because of this discovery, we should be able to make more out of heat than we do today,” said study co-author Joseph Heremans, professor of mechanical and aerospace engineering and Ohio Eminent Scholar in Nanotechnology at The Ohio State University. “It’s something that, until now, nobody thought was possible.”

Sep 24, 2019

NA62 spots two potential instances of rare particle decay

Posted by in categories: cosmology, particle physics

Are there new, unknown particles that can explain dark matter and other mysteries of the universe? To try to answer this question, particle physicists typically sift through the myriad of particles that are produced in particle collisions. But they also have an indirect but powerful way of looking for new particles, which is to measure processes that are both rare and precisely predicted by the Standard Model of particle physics. A slight discrepancy between the Standard Model prediction and a high-precision measurement would be a sign of new particles or phenomena never before observed.

One such process is the transformation, or “decay”, of a positively charged variant of a particle known as kaon into a positively charged pion and a neutrino–antineutrino pair. In a seminar that took place today at CERN, the NA62 collaboration reported two potential instances of this ultra-rare kaon decay. The result, first presented at the International Conference on Kaon Physics, shows the experiment’s potential to make a precise test of the Standard Model.

The Standard Model predicts that the odds of a positively charged kaon decaying into a positively charged pion and a neutrino–antineutrino pair (K+ → π+ ν ν) are only about one in ten billion, with an uncertainty of less than ten percent. Finding a deviation, even if small, from this prediction would indicate new physics beyond the Standard Model.