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Jun 28, 2019

Confirmation of old theory leads to new breakthrough in superconductor science

Posted by in categories: materials, science

Phase transitions occur when a substance changes from a solid, liquid or gaseous state to a different state—like ice melting or vapor condensing. During these phase transitions, there is a point at which the system can display properties of both states of matter simultaneously. A similar effect occurs when normal metals transition into superconductors—characteristics fluctuate and properties expected to belong to one state carry into the other.

Scientists at Harvard have developed a bismuth-based, two-dimensional superconductor that is only one nanometer thick. By studying fluctuations in this ultra-thin material as it transitions into superconductivity, the scientists gained insight into the processes that drive superconductivity more generally. Because they can carry with near-zero resistance, as they are improved, will have applications in virtually any technology that uses electricity.

The Harvard scientists used the new technology to experimentally confirm a 23-year-old theory of superconductors developed by scientist Valerii Vinokur from the U.S. Department of Energy’s (DOE) Argonne National Laboratory.

Jun 28, 2019

Why does time always run forwards and never backwards?

Posted by in category: futurism

There’s egg on your face, literally. You tried to juggle some eggs, it all went wrong, and now you’ve got to shower and change your clothes.

Wouldn’t it be faster to just un-break the egg? Breaking it only took a few seconds, so why not do that again, but in reverse? Just reassemble the shell and throw the yolk and the white back inside. You’d have a clean face, clean clothes, and no yolk in your hair, like nothing ever happened.

Why don’t things happen in reverse all the time?

Jun 28, 2019

Astronomers Just Pinpointed The Origin of a Single Fast Radio Burst For The First Time

Posted by in categories: alien life, innovation

Every now and again, our radio telescopes capture a mystery. A single flash, as powerful in radio wavelengths as half-a-billion Suns, condensed into a burst that lasts just a few milliseconds at most. Now, for the very first time, astrophysicists have traced one of these one-off fast radio bursts (FRBs) to its source.

“This is the big breakthrough that the field has been waiting for since astronomers discovered fast radio bursts in 2007,” said astro-engineer Keith Bannister of Australia’s Commonwealth Scientific and Industrial Research Organisation (CSIRO).

The signal has been named FRB 180924 — they’re named for the date of detection — and it originated in the outskirts of a Milky Way-sized galaxy roughly 3.6 billion light-years from Earth.

Jun 28, 2019

New blood test for detecting Alzheimer’s disease

Posted by in categories: biotech/medical, neuroscience

Researchers from Lund University, together with the Roche pharmaceutical company, have developed a method to create a new blood marker capable of detecting whether or not a person has Alzheimer’s disease. If the method is approved for clinical use, the researchers hope eventually to see it used as a diagnostic tool in primary healthcare. This autumn, they will start a trial in primary healthcare to test the technique.

Currently, a major support in the diagnostics of Alzheimer’s disease is the identification of abnormal accumulation of the substance beta-amyloid, which can be detected either in a spinal fluid sample or through brain imaging using a PET scanner.

“These are expensive methods that are only available in specialist healthcare. In research, we have therefore long been searching for simpler diagnostic tools,” says Sebastian Palmqvist, associate professor at the unit for clinical memory research at Lund University, physician at Skåne University Hospital and lead author of the study.

Jun 28, 2019

New property of light discovered

Posted by in categories: futurism, space

A team of researchers affiliated with several institutions in Spain and the U.S. has announced that they have discovered a new property of light—self-torque. In their paper published in the journal Science, the group describes how they happened to spot the new property and possible uses for it.

Scientists have long known about such properties of light as wavelength. More recently, researchers have found that light can also be twisted, a property called . Beams with highly structured angular momentum are said to have orbital angular momentum (OAM), and are called . They appear as a helix surrounding a common center, and when they strike a flat surface, they appear as doughnut-shaped. In this new effort, the researchers were working with OAM beams when they found the light behaving in a way that had never been seen before.

The experiments involved firing two lasers at a cloud of argon gas—doing so forced the beams to overlap, and they joined and were emitted as a single beam from the other side of the argon cloud. The result was a type of vortex beam. The researchers then wondered what would happen if the lasers had different orbital angular momentum and if they were slightly out of sync. This resulted in a beam that looked like a corkscrew with a gradually changing twist. And when the beam struck a , it looked like a crescent moon. The researchers noted that looked at another way, a at the front of the beam was orbiting around its center more slowly than a photon at the back of the . The researchers promptly dubbed the new property self-torque—and not only is it a newly discovered property of light, it is also one that has never even been predicted.

Jun 28, 2019

Engineers report a new low-power lighting technology

Posted by in categories: electronics, energy

Researchers from the Moscow Institute of Physics and Technology and Lebedev Physical Institute of the Russian Academy of Sciences have designed and tested a prototype cathodoluminescent lamp for general lighting. The new lamp, which relies on the phenomenon of field emission, is more reliable, durable, and luminous than its analogues available worldwide. The development was reported in the Journal of Vacuum Science & Technology B.

While LED lamps have become commonplace, they are not the only clean and power-saving alternative to . Since the 1980s, engineers around the world have been looking into the so-called cathodoluminescent lamps as another option for general lighting purposes.

Shown in figure 1, a of this kind relies on the same principle that powered TV cathode-ray tubes: A negatively charged electrode, or cathode, at one end of a vacuum tube serves as an electron gun. A potential difference of up to 10 kilovolts accelerates the emitted electrons toward a flat positively charged phosphor-coated electrode—the anode—at the opposite end of the tube. This electron bombardment results in light.

Jun 28, 2019

Stallone in ‘Terminator 2’: How Deep Fake Could Change Movies Forever

Posted by in categories: entertainment, media & arts

It might be a fun game for film fans, but how will “deep fake” technology actually change the future of filmmaking?

In a viral sensation that has been bouncing around the internet, some very popular and very interesting videos have used this budding “Deep Fake” technology to superimpose different people and actors into some of our favorite film scenes.

Found by the Ultimate Action Movie Club, here’s an example of the tech at work replacing Arnold Schwarzenegger’s famous intro scene in Terminator 2 with Sylvester Stallone.

Jun 28, 2019

NASA needs your help: Do you know how to grow plants in space?

Posted by in categories: food, space

Do you know how to maintain a family-sized garden without unlimited soil, natural sunlight and Earth’s gravity? If the answer is yes, then call NASA.

The Fairchild Tropical Botanic Garden in Miami in partnership with NASA is calling all “makers” to participate in its “Growing Beyond Earth Maker Contest.” The challenge is to reinvent the systems used to grow on the International Space Station and beyond.

Fairchild and NASA began their partnership in 2015 to find more ways to sustain plant life in . Last summer, the received a nearly $750,000 grant from NASA to support its Growing Beyond Earth Innovation Studio, a community work space dedicated to the technology of growing food.

Jun 28, 2019

Magnetic Fields Encourage Cellular Reprogramming

Posted by in categories: bioengineering, biotech/medical, genetics, health

Could be used in a portable device to genetically reprogram ones body.


Environmental conditions, such as heat, acidity, and mechanical forces, can affect the behavior of cells. Some biologists have even shown that magnetic fields can influence them. Now, for the first time, an international team reports that low-strength magnetic fields may foster the reprogramming of cellular development, aiding in the transformation of adult cells into pluripotent stem cells (ACS Nano 2014, DOI: 10.1021/nn502923s). If confirmed, the phenomenon could lead to new tools for bioengineers to control cell fates and help researchers understand the potential health effects of changing magnetic fields on astronauts.

Biologists have been building up evidence that magnetic fields affect living things, says Michael Levin, director of Tufts University’s Center for Regenerative & Developmental Biology, who was not involved in the new study. For example, plants and amphibian embryos develop abnormally when shielded from Earth’s geomagnetic field. And there’s some clinical evidence that particular electromagnetic frequencies promote bone fracture healing and wound repair (Eur. Cytokine Network 2013, DOI: 10.1684/ecn.2013.0332).

Continue reading “Magnetic Fields Encourage Cellular Reprogramming” »

Jun 28, 2019

Optimal quantum computation linked to gravity

Posted by in categories: computing, quantum physics

Information and gravity may seem like completely different things, but one thing they have in common is that they can both be described in the framework of geometry. Building on this connection, a new paper suggests that the rules for optimal quantum computation are set by gravity.

Physicists Paweł Caputa at Kyoto University and Javier Magan at the Instituto Balseiro, Centro Atómico de Bariloche in Argentina have published their paper on the link between and gravity in a recent issue of Physical Review Letters.

In the field of , one of the main ideas is minimizing the cost (in terms of computational resources) to solve a problem. In 2006, Michael Nielsen demonstrated that, when viewed in the context of differential geometry, computational costs can be estimated by distances. This means that minimizing computational costs is equivalent to finding minimal “geodesics,” which are the shortest possible distances between two points on a curved surface.