Transformation Between Different Topological Spin Textures
Nov. 14, 2022 The transformation between skyrmions and bimerons has now been realized by …
Dynamics in One-Dimensional Spin Chains Newly Elucidated
Oct. 3, 2022 Neutron scattering is considered the method of choice for investigating magnetic structures and excitations in quantum materials. Now, for the first time, the evaluation of measurement data from the …
Light-Induced Topological States
Sep. 12, 2022 Researchers proposed a scenario of a light-induced topological phase called a Floquet-Weyl semimetal. They find that the motion of the electrons when excited by a laser allows a spin-polarized …
Making Mini-Magnets
Sep. 12, 2022 Researchers demonstrated a topological insulator device that opens the way towards observing the quantum anomalous Hall effect. Because the currents generated are resistant to scattering, but very …
Scientists See Spins in a 2D Magnet
Sep. 7, 2022 Research shows that spinning quasiparticles, or magnons, light up when paired with a light-emitting quasiparticle, or exciton, with potential quantum information …
Researchers Devise Tunable Conducting Edge
Sep. 6, 2022 Physicists have demonstrated a new magnetized state in a monolayer of tungsten ditelluride. This material of one-atom thickness has an insulating interior but a conducting edge, which has important …
Investigating Magnetic Excitation-Induced Spin Current in Chromium Trihalides
Sep. 2, 2022 A general formula that can calculate the spin current induced by oscillating magnetic fields in magnetic materials and aid our understanding of novel spintronics functionality has been developed. The …
From Bits to P-Bits: One Step Closer to Probabilistic Computing
Aug. 29, 2022 Scientists have developed a mathematical description of what happens within tiny magnets as they fluctuate between states when an electric current and magnetic field are applied. Their findings could …
New Insights Into the Interaction of Topological Insulators
Aug. 25, 2022 Topological insulators are regarded as the key to novel ‘spintronic’ devices and quantum computers of the future due to their unique electronic properties. Physicists have now been able to …
Antiferromagnetic Hybrids Achieve Important Functionality for Spintronic Applications
Aug. 23, 2022 A research team has demonstrated efficient spin transport in an antiferromagnet/ferromagnet hybrid that remains robust up to room …
Physics of High-Temperature Superconductors Untangled
Aug. 18, 2022 When some materials are cooled to a certain temperature, they lose electric resistance, becoming …
Scientists Unravel ‘Hall Effect’ Mystery in Search for Next Generation Memory Storage Devices
Aug. 18, 2022 An advance in the use of antiferromagnetic materials in memory storage devices has been made by an international team of …
2D Array of Electron and Nuclear Spin Qubits Opens New Frontier in Quantum Science
Aug. 15, 2022 By using photons and electron spin qubits to control nuclear spins in a two-dimensional material, researchers have opened a new frontier in quantum science and technology, enabling applications like …
Magnetic Quantum Material Broadens Platform for Probing Next-Gen Information Technologies
July 27, 2022 Scientists have used neutron scattering to determine whether a specific material’s atomic structure could host a novel state of matter called a spiral spin liquid. By tracking tiny magnetic …
Buckyballs on Gold Are Less Exotic Than Graphene
July 21, 2022 C60 molecules on a gold substrate appear more complex than their graphene counterparts, but have much more ordinary electronic properties. This is now shown by measurements with ARPES at BESSY II and …
Magnetic Memory Milestone
July 20, 2022 Computers and smartphones have different kinds of memory, which vary in speed and power efficiency depending on where they are used in the system. Typically, larger computers, especially those in …
Researchers Learn to Control Electron Spin at Room Temperature to Make Devices More Efficient and Faster
July 14, 2022 As our devices become smaller, faster, more energy efficient, and capable of holding larger amounts of data, spintronics may continue that trajectory. Whereas electronics is based on the flow of …
Researchers Find the Missing Photonic Link to Enable an All-Silicon Quantum Internet
July 13, 2022 Researchers have made a crucial breakthrough in the development of quantum technology. Their research describes their observations of over 150,000 silicon ‘T center’ photon-spin qubits, an …
A Four-Stroke Engine for Atoms
July 6, 2022 If you switch a bit in the memory of a computer and then switch it back again, you have restored the original state. There are only two states that can be called ‘0 and 1’. However, in a …
Magnetic Spins That ‘Freeze’ When Heated: Nature in the Wrong Direction
July 4, 2022 Physicists observed a strange new type of behavior in a magnetic material when it’s heated up. The magnetic spins ‘freeze’ into a static pattern when the temperature rises, a …
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Source link ScienceDaily recently published an article about Spintronics news. Spintronics, which is short for spin transport electronics, is a form of electronics that relies on the spin of electrons. This new technology has potential applications in several areas, such as communication, computing, sensors, and storage.
Spintronics has the potential to revolutionize many aspects of computing technology, with applications ranging from faster data processing to improved storage capabilities. This technology differs from traditional electronics in that it manipulates the spin of electrons. This means that the flow of electrons can be directed in multiple ways rather than along a linear path.
The research is still in its early stages, but researchers are optimistic that spintronics could lead to a new generation of faster, more efficient, and more powerful computing devices. Current work suggests that this technology holds potential for higher data transfer speeds, improved data storage, and decreased energy consumption.
Researchers are also investigating the potential of spintronics for applications in medicine, such as magnetic resonance imaging (MRI). With its ability to manipulate the spin of electrons with precision, spintronics could enable higher-resolution imaging of tissue and organs, as well as creating a new class of medical sensors.
While the development of spintronics is still in its infancy, its potential applications are exciting. It has the potential to revolutionize computing, storage, communication, and imaging technology, with applications in many different areas. As research continues, the possibilities of spintronics will become clearer, and the potential for technological advancement even greater.
