Connect with us

Science

Scientists discover how metal can become magnetic with light

Published

on

A new method for making non-magnetic metals magnetic has been developed by a group of researchers from the University of Copenhagen and Nanyang Technology University, Singapore. According to the press release, the process of using laser light can also be used to equip many materials with new properties.

Researchers have discovered that when they stimulate a metal through a certain process with laser light, its structure can transform and acquire new properties. The study was explained by Mark Rudner, a researcher at the Niels Bohr Institute of the Danish University: “We have been studying for several years how to transform the properties of a substance by emitting it with certain types of light. The novelty is that not only can we change properties with the help of light, but we can also change the material from the inside out and create a new phase with completely new properties. For example, a non-magnetic metal can suddenly become a magnet.”

According to researchers, the electrical currents circulating in the metal essentially appear spontaneously when the metal itself is irradiated with linear polarised light. What changes are the plasmons, a kind of electronic wave, present in the metal that begins to rotate clockwise or counterclockwise and change the electronic structure of the material, causing instability in the direction of the autorotation that makes the metal magnetic.

The study was published in Nature Physics.


See also:

https://news.ku.dk/all_news/2019/09/quantum-alchemy-researchers-use-laser-light-to-transform-metal-into-magnet/

https://www.nature.com/articles/s41567-019-0578-5

Image source:

https://www.thoughtco.com/thmb/0tfhJpGmwJZ7XHqMyzxLxs2r2HE=/2110×1421/filters:fill(auto,1)/illustration-of-a-horseshoe-magnet-s-attractive-power-172221336-5c3feb6646e0fb00010fbb39.jpg

Kelly Owen

Kelly majored in English Literature and is responsible for assisting in proofreading, editing and research, as well as for web design and the maintenance of this website. Beyond her outstanding writing skills, she has like the rest of us a passion for science and science reporting. She is an avid reader of many scientific journals and magazines, especially Scientific American. In her spare time she also enjoys reading fiction and hopes to complete her own novel in 2020.
---
520-557-5143
[email protected]
Kelly Owen
Continue Reading
Click to comment

Leave a Reply

Your email address will not be published. Required fields are marked *

Science

Producing steel without emitting CO2 is perhaps possible thanks to hydrogen

Published

on

Producing steel also means emitting a lot of CO2 into the environment. It is estimated, in fact, that the steel industry itself generates between 7 and 9% of CO2 emissions among all those generated through the use of fossil fuels, as noted in a new statement published on the CORDIS website.

Of course, several studies are underway to limit CO2 production when steel is produced, but not many of them have achieved results that suggest real applications. Now a new project, called H2Future and funded by the European Union, aims to discover new energy sources to achieve, albeit gradually, a real decarbonisation of steel production. In this regard, it is planned to use hydrogen as a renewable electricity source.

A pilot plant has already been set up in Linz, Austria, which has a capacity of 6 MW of electricity from renewable sources to produce up to 1200 m³ of green hydrogen. The press release on the launch of this new plant speaks of “an important milestone for the industrial application of electrolysis” in the steel industry, refineries, fertiliser production and other industrial sectors.

The new plant is based on the technique of electrolysis, a phenomenon in which water is divided into hydrogen and oxygen by electric current, as explained in the press release on the project website: “PEM technology works using a proton exchange membrane as the electrolyte. This membrane has a special property: it is permeable to protons but not to gases such as hydrogen and oxygen. This means that in a PEM-based electrolyzer the membrane acts as an electrolyte and separator to prevent the mixing of gaseous products.”

Kelly Owen

Kelly majored in English Literature and is responsible for assisting in proofreading, editing and research, as well as for web design and the maintenance of this website. Beyond her outstanding writing skills, she has like the rest of us a passion for science and science reporting. She is an avid reader of many scientific journals and magazines, especially Scientific American. In her spare time she also enjoys reading fiction and hopes to complete her own novel in 2020.
---
520-557-5143
[email protected]
Kelly Owen
Continue Reading

Science

Heartburn medication useful to fight labial herpes according to study

Published

on

A new combination of drugs that could be helpful in treating lip herpes more effectively has been developed by a team of researchers at the University of Kent.
The study, published in Frontiers in Microbiology, explains how researchers tested different drugs by applying them to various cell cultures and discovered how some drugs used for heartburn improve the effectiveness of antiviral acyclovir. The latter is the drug used to fight the Herpes simplex virus.

The drugs used by researchers in combination with acyclovir are drugs treated for heartburn and are included in the category of proton pump inhibitors. They also include omeprazole.
Herpes simplex can be very worrying for people with weak or suppressed immune systems. In these people it can cause life-threatening conditions or even blindness as the infected person can transfer the virus from the lips to other parts of the body including the eyes (a process also called self-inoculation). It can lead to conjunctivitis or keratitis in the eyes and this can worsen, especially if the patient continues to rub the eye at the point of injury.

The drugs to treat heartburn were combined by researchers, led by Professor Martin Michaelis of the School of Biosciences, with acyclovir on cell cultures. The researchers found that they reduced the spread of the aforementioned virus in cells and the maximum effect was caused by omeprazole.
“The combination of these two drugs could significantly improve the broader treatment of the herpes simplex virus,” says Martin Michaelis of the University of Kent.

Kelly Owen

Kelly majored in English Literature and is responsible for assisting in proofreading, editing and research, as well as for web design and the maintenance of this website. Beyond her outstanding writing skills, she has like the rest of us a passion for science and science reporting. She is an avid reader of many scientific journals and magazines, especially Scientific American. In her spare time she also enjoys reading fiction and hopes to complete her own novel in 2020.
---
520-557-5143
[email protected]
Kelly Owen
Continue Reading

Science

Bacteria engineered to save bees from viruses and pests

Published

on

Bacteria genetically modified to protect bees from the deadly tendency that is characterizing them and that is worrying not only the scientific world. Even in the United States, honey bee colonies are decreasing so much that, during last winter, beekeepers had to give up more than 40% of their colonies, the highest rate since surveys began 13 years ago.

Nancy Moran, Professor of Integrative Biology, is working with colleagues to engineer particular strains of bacteria to be introduced into the bowels of honeybees. These bacteria act as “biological factories”: they trigger the immune system of bees to protect themselves from the deformed wing virus, one of the two main causes of their collapse together with varroa mites, parasites of bees. These two conditions very often come together: the more the mites feed on bees, the more the virus spreads, which makes bees increasingly vulnerable to various pathogens in the environment.

This is a method that is not as complex as it might appear: the engineering of bacteria in the laboratory, once the method is completed, is not at all prohibitive, just as it is not prohibitive to inoculate them into the body of bees by causing them to spread into colonies. The implication of such a method is direct, as Moran herself states. It is also the first time that the bee microbiome has been genetically engineered to improve bee health.

During the tests, bees with the engineered bacterium in their bodies showed a 36.5% higher probability of surviving after 10 days than control bees. At the same time, Varroa mites feeding on bees treated with the engineered bacterium were about 70% more likely to die by day 10 than mites feeding on control bees.

Kelly Owen

Kelly majored in English Literature and is responsible for assisting in proofreading, editing and research, as well as for web design and the maintenance of this website. Beyond her outstanding writing skills, she has like the rest of us a passion for science and science reporting. She is an avid reader of many scientific journals and magazines, especially Scientific American. In her spare time she also enjoys reading fiction and hopes to complete her own novel in 2020.
---
520-557-5143
[email protected]
Kelly Owen
Continue Reading
October 2019
M T W T F S S
    Nov »
 123456
78910111213
14151617181920
21222324252627
28293031  

Content From OutwitTrade (Our Product Review Site)

Trending

Copyright © 2019 Hplex Science News | Created with the assistance of Coding Elite.