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Most Read articles - Thinnest magnet, Automotive heads-up display, Skunk Works

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Manufacturing Bits: Aug. 3

Manufacturing Bits: Aug. 3
World’s thinnest magnet
Lawrence Berkeley National Laboratory, the University of California at Berkeley and others have developed what researchers say is the world’s thinnest magnet.
The one-atom-thin, two-dimensional (2D) magnet could one day pave the way towards new spin electronics or spintronics memory devices and other technologies in the market. Spintronics uses the orientation of an electron spin rather than a charge to encode data.
2D magnetic materials are promising. These materials enable exceptional spintronic capabilities. These capabilities are key for the development of next-generation memory and electronic devices.
For decades, the industry has attempted to develop thinner and smaller 2D magnets. The problem? 2D magnets tend to lose their magnetism and become unstable at room temperature. ....

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Scientists create the world's thinnest magnet | University of California

Credit: Berkeley Lab
Illustration of the one-atom-thin 2D magnet. Red represents cobalt atoms; blue represents oxygen atoms; and yellow represents zinc atoms.
The development of an ultrathin magnet that operates at room temperature could lead to new applications in computing and electronics such as high-density, compact spintronic memory devices and new tools for the study of quantum physics.
The ultrathin magnet, which was recently reported in the journal Nature Communications, could make big advances in next-gen memory devices, computing, spintronics and quantum physics. It was discovered by scientists at the Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab) and UC Berkeley. ....

United States , Alpha Ndiaye , Jie Yao , Rui Chen , Padraic Shafer , Robert Birgeneau , Nature Communications , Argonne National Laboratory Center , Yao Research Group , National Accelerator Laboratory Stanford Synchrotron Radiation Lightsource , Argonne National Laboratory , Berkeley Lab , Berkeley Lab Materials Sciences Division , University Of Electronic Science , Technology Of China , Lawrence Berkeley National Laboratory , Materials Sciences Division , Molecular Foundry , Advanced Light Source , Accelerator Laboratory , Stanford Synchrotron Radiation Lightsource , Nanoscale Materials , Alphan Diaye , Nanjing University , Electronic Science , ஒன்றுபட்டது மாநிலங்களில் ,

Main attraction: Scientists create world's thinnest magnet

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IMAGE: Illustration of magnetic coupling in a cobalt-doped zinc-oxide monolayer. Red, blue, and yellow spheres represent cobalt, oxygen, and zinc atoms, respectively.
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Credit: Berkeley Lab
The development of an ultrathin magnet that operates at room temperature could lead to new applications in computing and electronics - such as high-density, compact spintronic memory devices - and new tools for the study of quantum physics.
The ultrathin magnet, which was recently reported in the journal
Nature Communications , could make big advances in next-gen memories, computing, spintronics, and quantum physics. It was discovered by scientists at the Department of Energy s Lawrence Berkeley National Laboratory (Berkeley Lab) and UC Berkeley. ....

United States , Alpha Ndiaye , Jie Yao , Rui Chen , Padraic Shafer , Robert Birgeneau , University Of California , Intel Corporation , Nature Communications , Argonne National Laboratory Center , Yao Research Group , National Accelerator Laboratory Stanford Synchrotron Radiation Lightsource , Berkeley Lab Molecular Foundry , Office Of Science , Argonne National Laboratory , Berkeley Lab Materials Sciences Division , National Accelerator Laboratory , University Of Electronic Science , Berkeley Lab Advanced Light Source , Lawrence Berkeley National Laboratory , Berkeley Lab , Bakar Fellows Program , Technology Of China , Materials Sciences Division , Molecular Foundry , Advanced Light Source ,

Researchers create world's thinnest magnet

DOE/Lawrence Berkeley National Laboratory
The development of an ultrathin magnet that operates at room temperature could lead to new applications in computing and electronics – such as high-density, compact spintronic memory devices – and new tools for the study of quantum physics.
The ultrathin magnet, which was recently reported in the journal Nature Communications , could make big advances in next-gen memories, computing, spintronics, and quantum physics. It was discovered by scientists at the Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab) and UC Berkeley.
“We’re the first to make a room-temperature 2D magnet that is chemically stable under ambient conditions,” said senior author Jie Yao, a faculty scientist in Berkeley Lab’s Materials Sciences Division and associate professor of materials science and engineering at UC Berkeley. ....

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