Scientists discover new type of text; imnet



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A team of scientists is the first strong example of a new type of scientists; find an image - one who promises to do & # 39; improving the performance of data storage technologies. Picture credit: alphaspirit / Getty Images
A team of scientists is the first strong example of a new type of scientists; find an image – one who promises to do & # 39; improving the performance of data storage technologies. Picture credit: alphaspirit / Getty Images

A team of scientists at the University of New York has developed a new type of magnet-based-magnet-based that promises to be able to; improving the performance of data storage technologies.

The device includes USb2 (common uranium and antamony) and so it's a & # 39; Creating magnetism in a different way than any other science-related device. In contrast, fields that come into and out of the newly-detected tool by bees, and & # 39; means that there is an unstable force – but also a man who can be more flexible than current peers.

Andrew Wray, a former physics professor at the University of New York, led by the research team, said "There is a lot of research today that uses magnets and magnetism to develop data storage technologies. based on single translocation between magnetic and non-managerial levels. You do not have to do so much so that the material can be spread between non-magnetic and strong states, which may be beneficial for using power and switching distance within a computer. "

In normal magnetic material, magnetic magic media will try to coincide with their neighbors (left). In comparison, in unit-based content, magnetic non-resistant elements will be incoming and outgoing, and, Hold together in related clubs (right). (Image with permission from Lin Miao, Department of Science Corp.). "Width =" 1280 "height =" 582 "srcset =" https://www.techexplorist.com/wp-content/uploads/2019/02/normal-magnetic -material.jpg 1280w, https: //www.techexplorist .com / wp-content / uploads / 2019/02 / normal-magnetic-material-150x68.jpg 150w, https://www.techexplorist.com/wp-content / uploads / 2019/02 / normal-magnetic-material- 300x136.jpg 300w, https://www.techexplorist.com/wp-content/uploads/2019/02/normal-magnetic-material-768x349.jpg 768w, https: //www.techexplorist.com/wp-content/ uploads / 2019/02 / normal-magnetic-material-1024x466.jpg 1024w, https://www.techexplorist.com/wp-content/uploads/2019/02/ normal-magnetic-material-696x316.jpg 696w, https: //www.techexplorist.com/wp-content/uploads/2019/02/normal-magnetic-material-1068x486.jpg 1068w, https: //www.techexplorist. com / wp-content / uploads / 2019/02 / normal-magnetic-material-924x420.jpg 924w "sizes =" (max-width: 1280px) 100vw, 1280px
In normal magnetic material, magnetic magic media will try to coincide with their neighbors (left). In comparison, in unit-based content, magnetic non-resistant elements will be incoming and outgoing, and, Hold together in related clubs (right). (Image with permission from Lin Miao, NYU Department of Physical Education).

"There is also a big difference in how the type of magnetic couples with electric currents. Electron to enter the content is strongly interconnected with the unbeatable magnetic times, instead of just passing through. Therefore, these features can help them with performance explanations and better control information stored above. "

Scientists who used to develop neutron, X-ray spread, and theoretical symbols to establish a connection between much stronger device modes, USb2, and the theoretical features of singlet-based magnets.

Lin Miao, NYU's post-doctoral, and her first author said; "This material has been fascinating for the last decades – it was known that the ways in which magnetic and electrical dialogue were compiled within the river and just started to make sense with this new classification. "

USb2 holds the essentials for this type of magnetism – in particular a large mechanical property called & # 39; Hundness & # 39; a & # 39; Control how electrons create magnetic magnets. Hundness has recently been proven as an essential part of a range of quantum mechanical properties, including incentives.

The work, published in the journal Nature Communications.

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