New Super-Conducting Technology Takes Data Beyond Ones and Zeroes
Leveraging electron spin adds a new dimension to data encoding. Remember flip-phones? Our smartphones may one day look just as obsolete thanks to spintronics, an...
View ArticleSkyrmions – Tiny Magnetic Swirls – Used To Generate True Random Numbers
Skyrmions, tiny magnetic anomalies that arise in two-dimensional materials, can be used to generate true random numbers useful in cryptography and probabilistic computing. Whether for...
View ArticleChaining Atoms Together Using Nuclear Spins Yields Quantum Storage
New technique could make quantum networking possible. Engineers at Caltech have developed an approach for quantum storage could help pave the way for the development...
View ArticleKey Elements Achieved for Fault-Tolerant Quantum Computation in Silicon Spin...
Researchers from RIKEN and QuTech—a collaboration between TU Delft and TNO— have achieved a key milestone toward the development of a fault-tolerant quantum computer. They...
View ArticleMajor Breakthrough for Efficient and High-Speed Spintronic Data Storage Devices
INRS researchers and international partners have succeeded in looking at spin inside rare earth materials, using a tabletop ultrafast soft-X-ray microscope, for the first time....
View ArticleScientists “See” Spinning Quasiparticles in a 2D Magnet
New research reveals that spinning quasiparticles, or magnons, light up when paired with a light-emitting quasiparticle, or exciton, with potential quantum information applications. All magnets...
View ArticleUnlocking the Potential of Magnetic Materials – A New Optical Method To...
Topological phases are not limited to electronic systems and can also exist in magnetic materials characterized by magnetic waves, known as magnons. While scientists have...
View ArticleSpinning Into the Future – New Waveguide Is Changing the Way Data Is...
The concept of a refrigerator that automatically handles your grocery shopping and alerts you to expired food may seem like an exhilarating glimpse into the...
View ArticleSpintronics Revolution: How Topological Materials Are Paving the Way
Researchers highlight the potential of cobalt-tin-sulfur in spintronic devices, revealing its capability to reduce energy consumption and heralding a new era in electronics. A team...
View ArticleHopfions Unveiled: The 3D Spin Structures Set to Spin Up Future Tech
Hopfions, magnetic spin structures predicted decades ago, have become a hot and challenging research topic in recent years. In a study published today in Nature,...
View ArticleMagnetization by Laser Pulse: A Futuristic Twist in Material Science
A research team has revealed that ultrashort laser pulses can magnetize iron alloys, a discovery with significant potential for applications in magnetic sensor technology, data...
View ArticleSpintronics Breakthrough – Scientists Confirm a Previously Undetected Physics...
Research suggests a novel approach to enhance spintronics, paving the way for advancements in future technology. In a new breakthrough, researchers have used a novel...
View ArticleQuantum Revolution: Uniting Twistronics and Spintronics for Advanced Electronics
Purdue quantum researchers twist double bilayers of an antiferromagnet to demonstrate tunable moiré magnetism. Twistronics isn’t a new dance move, exercise equipment, or new music fad....
View ArticleRevolutionizing Electronics: Physicists Achieve Major Advance Using Graphene...
Physicists at the National University of Singapore have innovated a concept to induce and directly quantify spin splitting in two-dimensional materials. By using this concept,...
View ArticleMastering Electron Spin: High-Harmonic Probes Unlock Magnetic Mysteries
Breakthrough research enables precise control of electron spins in magnetic materials, a significant step towards the development of faster, more efficient electronics. Deep within every...
View ArticleHow Invisible Light Is Shaping the Future of High-Speed Computing
New ultrafast method for controlling magnetic materials might enable next-generation information processing technologies. As demands for computing resources continue to increase rapidly, scientists and...
View ArticleChallenging Conventional Understanding – Scientists Discover Groundbreaking...
Recent research conducted at Hebrew University has uncovered a previously unknown connection between light and magnetism. This finding paves the way for the development of...
View ArticleNew Fundamental Physics Uncovered – Experiments Prove the Existence of a New...
Experiments at the Swiss Light Source SLS prove the existence of a new type of magnetism, with broad implications for technology and research. There is...
View ArticleOrbital Magic: Japanese Scientists Pave the Way for Next-Gen Spintronics
Scientists demonstrate the ability to control the direction of magnetization by applying strain to a multiferroic material at the interface. Directing magnetization with a low...
View ArticleEclipsing Silicon: The Emergence of Magnon-Based Computing Technologies
A recent study has advanced the understanding of magnonics by showing how magnons can interact nonlinearly, marking a critical step towards faster and more stable...
View ArticleThe Altermagnetism Breakthrough: A New Dimension of Magnetism Explored
Researchers at Mainz University have been able to visualize the third class of magnetism, called altermagnetism, in action. Ferromagnetism and antiferromagnetism have long been known...
View ArticleUnlocking the Secrets of Altermagnets in Spin-Based Electronics
Altermagnets offer a blend of fast dynamics and high spin polarization, with groundbreaking research showcasing their potential in spintronics. Altermagnets represent a newly recognized class...
View ArticleOne Step Closer to Unparalleled Computational Power: Spintronics Technology...
Researchers from Tohoku University have created a theoretical framework for an advanced spin wave reservoir computing (RC) system that leverages spintronics. This innovation advances the...
View ArticleMerons Magic: Unlocking the Secrets of Synthetic Antiferromagnets
For the first time, teams from Germany and Japan have successfully identified collective topological spin formations known as merons within layered synthetic antiferromagnets. Our everyday...
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