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Berkeley Lab Makes Strides in Autonomous Discovery to Tackle the Data Deluge

Berkeley Lab Makes Strides in Autonomous Discovery to Tackle the Data Deluge
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United statesJames sethianMarcus noackJohn thomasAaron michelsonBerkeley lab kathy kincadeBerkeley lab molecular foundryBerkeley labLawrence berkeley national laboratoryMathematics for energy research applicationsColumbia universityAdvanced mathematicsEnergy research applicationsMolecular foundryஒன்றுபட்டது மாநிலங்களில்மார்கஸ் னோக்க்

Berkeley Lab s CAMERA Leads International Effort on Autonomous Scientific Discoveries

Berkeley Lab s CAMERA Leads International Effort on Autonomous Scientific Discoveries
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United statesPetrus zwartChristopher murrayLiang chenPaul steffensKatherine elbertAaron steinHoi ying holmanAriana manglavitiYannick leEsther tsaiJohn thomasSteven leeKathy kincadeJames sethianTobias weber

UC Berkeley and Berkeley Lab develop 1-atom-thin 2-dimensional magnet

UC Berkeley and Berkeley Lab develop 1-atom-thin 2-dimensional magnet Lisi Ludwig/Senior Staff UC Berkeley professor Jie Yao and his team developed a one-atom-thin two-dimensional magnet that reached the fundamental limit proposed by physicists years ago. Reaching the “fundamental limit” proposed by physicists years ago, UC Berkeley associate professor in materials science and engineering Jie Yao and his team created a thinner two-dimensional magnet. The Lawrence Berkeley National Lab, or Berkeley Lab, released a study published June 25 on the creation of the “one-atom-thin two-dimensional” magnet. The magnet, which operates at room temperature, will allow for a more efficient data encoding process, impacting the field of memory devices, computing, spintronics and quantum physics, according to the study.

United statesJie yaoBerkeley lab molecular foundryBerkeley labLawrence berkeley national labMolecular foundryAdvanced light sourceஒன்றுபட்டது மாநிலங்களில்ஜிே யாவ்பெர்க்லி ஆய்வகம் மூலக்கூறு ஃபவுண்டரிபெர்க்லி ஆய்வகம்லாரன்ஸ் பெர்க்லி தேசிய ஆய்வகம்மூலக்கூறு ஃபவுண்டரி

Main attraction: Scientists create world s thinnest magnet

E-Mail IMAGE: Illustration of magnetic coupling in a cobalt-doped zinc-oxide monolayer. Red, blue, and yellow spheres represent cobalt, oxygen, and zinc atoms, respectively. view more 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 statesAlpha ndiayeJie yaoRui chenPadraic shaferRobert birgeneauUniversity of californiaIntel corporationNature communicationsArgonne national laboratory centerYao research groupNational accelerator laboratory stanford synchrotron radiation lightsourceBerkeley lab molecular foundryOffice of scienceArgonne national laboratoryBerkeley lab materials sciences division

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.

United statesJie yaoRui chenRobert birgeneauNational accelerator laboratory stanford synchrotron radiation lightsourceNature communicationsBerkeley lab molecular foundryArgonne national laboratory centerBerkeley lab advanced light sourceBerkeley lab materials sciences divisionYao research groupLawrence berkeley national laboratoryBerkeley labMaterials sciences divisionMolecular foundryAdvanced light source