Spintronics p-computer ready for scale-up
Researchers used state-of-the-art semiconductor fabrication technologies to demonstrate how we could be ready for large-scale spintronic p-computers.
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Researchers used state-of-the-art semiconductor fabrication technologies to demonstrate how we could be ready for large-scale spintronic p-computers.
New spintronic hardware harnesses tunable randomness to solve complex optimisation problems faster and with less energy than conventional CPU approaches.
Printed magnetic field sensors made from iron, cellulose and starch offer a recyclable, lower-toxicity path toward disposable bioelectronics.
Short current pulses can switch magnetization in thin films via spin orbit torque, enabling controllable skyrmion motion for future data technologies.
Researchers directly used orbital currents in a magnetic device, producing much stronger signals for future low-energy memory and processors.
New soft X-ray momentum microscopy directly images magnons in 2D reciprocal space, offering a sensitive platform to study spin waves for future computing.
Author(s): Marric StephensA material’s contorted magnetic texture could be used to focus or collimate spin waves in future spintronic devices.[Physics 19, s68] Published Thu May 21...
Twisting magnetic spirals into one handedness across 99% of a material could enable ultra-dense, energy-efficient memory devices.
Placing the structures on a variably spinning turntable creates a scalable way of addressing single bits of memory The post Physicists create mechanical memory device from slap-bra...
Scientists developed a manganese-based molecular data storage material that works at about -132 C, warmer than earlier iron-based versions.
Insider Brief PRESS RELEASE — A spin qubit, in which quantum information is encoded in the spin state of an electron, is one of the most promising platforms for quantum computing....
A chip-sized device that can switch between two topologically protected light structures opens up a route to wireless communications that cannot be scrambled by the environment The...
Scientists at Nanyang Technological University in Singapore have discovered a surprisingly simple way to create exotic light structures called optical skyrmions using a 200-year-ol...
Researchers used laser pulses to write and read antiferromagnetic data, opening a path to faster, lower-energy memory linked to optical networks.
Источник: Компьютерра - Журнал о науке и технологиях Японские ученые продемонстрировали возможность точного управления направлением магнитной спирали в металлическом гелимагнетике...
Author(s): David EhrensteinA tiny bump in a magnetic film exposed to microwaves can engender spin waves with precisely spaced frequencies.[Physics 19, s86] Published Thu Jun 25, 20...
Light-switchable molecules could tune spin-wave filters in 2D magnets, offering a chemical route to reprogrammable nanoscale magnetic circuits.
Graphene coated with magnetic molecules shows gate-tunable, long-range magnetism while preserving mobility, pointing to spintronic uses.
The technology integrates two key generative AI functions into a single ferroelectric memory platform for improved power efficiency. Researchers at Seoul National University have...
Physicists have experimentally demonstrated an exotic form of magnetism in a metal that could be useful for realizing future data-storage devices.
Researchers have demonstrated an advanced readout sensor for spin qubits that, while being more compact that previous designs, can reach the level of readout precision needed to im...
Researchers used the Poisson spot effect to create stable optical skyrmions with a laser and disc, simplifying studies for photonics and computing applications.
Researchers from the University of Ottawa and MIT have published a comprehensive roadmap in Newton detailing the potential of “magnetic topological materials.” These materials repr...
A 2D magnonic crystal waveguide uses a complete bandgap to route spin waves through sharp bends with over 5,000 times stronger transmission.
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