PRESS-NEWS.org - Press Release Distribution
PRESS RELEASES DISTRIBUTION

Spintronics: Improving electronics with finer spin control

DGIST scientists have found a novel way to control magnetic spins in a localized space

Spintronics: Improving electronics with finer spin control
2021-05-18
(Press-News.org) Spintronics is an emerging technology for manufacturing electronic devices that take advantage of electron spin and its associated magnetic properties, instead of using the electrical charge of an electron, to carry information. Antiferromagnetic materials are attracting attention in spintronics, with the expectation of spin operations with higher stability. Unlike ferromagnetic materials, in which atoms align along the same direction like in the typical refrigerator magnets, magnetic atoms inside antiferromagnets have antiparallel spin alignments that cancel out the net magnetization.

Scientists have worked on controlling the alignment of magnetic atoms within antiferromagnetic materials to create magnetic switches. Conventionally, this has been done using a 'field-cooling' procedure, which heats and then cools a magnetic system containing an antiferromagnet, while applying an external magnetic field. However, this process is inefficient for use in many micro- or nano- structured spintronics devices because the spatial resolution of the process itself is not high enough to be applied in a micro- or nano-scale devices.

"We discovered that we can control the antiferromagnetic state by simultaneously applying mechanical vibration and a magnetic field," says Jung-Il Hong of DGIST's Spin Nanotech Laboratory. "The process can replace the conventional heating and cooling approach, which is both inconvenient and harmful to the magnetic material. We hope our new procedure will facilitate the integration of antiferromagnetic materials into spintronics-based micro- and nano-devices."

Hong and his colleagues combined two layers: a cobalt-iron-boron ferromagnetic film on top of an iridium manganese antiferromagnetic film. The layers were grown on piezoelectric ceramic substrates. Combined application of mechanical vibration and a magnetic field allowed the scientists to control the alignments of magnetic spins repeatedly along any direction desired.

The team aims to continue the search and development of new magnetic phases beyond conventionally classified magnetic materials. "Historically, new material discovery has led to the development of new technologies," says Hong. "We want our research work to be a seed for new technologies."

INFORMATION:


[Attachments] See images for this press release:
Spintronics: Improving electronics with finer spin control

ELSE PRESS RELEASES FROM THIS DATE:

Turn problems into opportunities: Photorespiration for improved plant metabolism

Turn problems into opportunities: Photorespiration for improved plant metabolism
2021-05-18
In today's plants, photorespiration dissipates some of the energy produced by photosynthesis and releases CO2. It begins when the enzyme RuBisCO acts on oxygen instead of carbon dioxide and creates toxic side-products requiring costly recycling reactions. The detoxification process uses up fixed carbon and wastes energy, thus strongly limiting agricultural productivity. Scientists generally pursue two approaches to minimizes the deleterious effects of photorespiration: mimic the carbon concentrating mechanism of C4 plants or introduce new metabolic pathways to bypass the photorespiration. Researchers led by Andreas Weber from Heinrich ...

New catalyst proved efficient to electrosynthesis of ammonia

New catalyst proved efficient to electrosynthesis of ammonia
2021-05-18
In a recent research, researchers led by Prof. ZHANG Haimin from the Institute of Solid State Physics of the Hefei Institutes of Physical Science (HFIPS) realized the synthesis of Mo single atoms anchored on activated carbon (Mo-SAs/AC) by the formed Mo-Ox bonds. The result was published on Chemical Communications. According to the researchers, this new oxygen-coordinated molybdenum single atom catalyst was proved efficient to electrosynthesis of ammonia. The O-coordinated environment in this study, different from N-coordinated environment reported before, provided the sites to anchor Mo single atoms and form Mo-Ox sites, which could be used as the active centers for the adsorption and activation of N2, resulting in high ...

When one become two: Separating DNA for more accurate nanopore analysis

When one become two: Separating DNA for more accurate nanopore analysis
2021-05-18
A new software tool developed by Earlham Institute researchers will help bioinformaticians improve the quality and accuracy of their biological data, and avoid mis-assemblies. The fast, lightweight, user-friendly tool visualises genome assemblies and gene alignments from the latest next generation sequencing technologies. Called Alvis, the new visualisation tool examines mappings between DNA sequence data and reference genome databases. This allows bioinformaticians to more easily analyse their data generated from common genomics tasks and formats by producing efficient, ready-made vector images. First author and post-doctoral scientist at the Earlham Institute Dr Samuel Martin in the Leggett Group, said: "Typically, alignment tools output plain ...

Electric cars: Special dyes could prevent unnecessary motor replacements

Electric cars: Special dyes could prevent unnecessary motor replacements
2021-05-18
One day in the near future dyes in electric motors might indicate when cable insulation is becoming brittle and the motor needs replacing. Scientists at Martin Luther University Halle-Wittenberg (MLU), together with ELANTAS, a division of the specialty chemicals group ALTANA, have developed a new process that enables the dyes to be directly integrated into the insulation. By changing colour, they reveal how much the insulating resin layer around the copper wires in the motor has degraded. The results were published in the journal "Advanced Materials". Modern combustion engines have long had detectors that recognise, for example, when an oil change is needed, saving unnecessary inspections. Electric motors also show signs of wear. Inside, ...

Grazing management of salt marshes contributes to coastal defense

Grazing management of salt marshes contributes to coastal defense
2021-05-18
Combining natural salt marsh habitats with conventional dikes may provide a more sustainable and cost-effective alternative for fully engineered flood protection. Researchers of the University of Groningen (UG) and the Royal Netherlands Institute for Sea Research (NIOZ) studied how salt marsh nature management can be optimized for coastal defence purposes. They found that grazing by both cattle and small herbivores such as geese and hare and artificial mowing can reduce salt marsh erosion, therefore contributing to nature-based coastal defence. People around the world live in coastal areas that are ...

Modular photoswitch cpLOV2 developed for optogenetic engineering

Modular photoswitch cpLOV2 developed for optogenetic engineering
2021-05-18
Recently, Prof. WANG Junfeng from the High Magnetic Field Laboratory of the Hefei Institutes of Physical Science (HFIPS), together with international scholars, developed a novel circular permutated light-oxygen-voltage 2 (LOV2) to expand the repertoire of genetically encoded photoswitches, which will accelerate the design of novel optogenetic devices. The result was published in Nature Chemical Biology. LOV2 domain is a blue light-sensitive photoswitch. In a typical LOV2-based optogenetic device, an effector domain is fused after the C-terminal Jα helix of LOV2, intending to cage the effector via steric hindrance in the dark. On photostimulation, light-triggered unfolding of the Jα helix exposes the effector domain to restore its function. Crafting a LOV2-based ...

NUS engineers harvest WiFi signals to power small electronics

NUS engineers harvest WiFi signals to power small electronics
2021-05-18
With the rise of the digital age, the amount of WiFi sources to transmit information wirelessly between devices has grown exponentially. This results in the widespread use of the 2.4GHz radio frequency that WiFi uses, with excess signals available to be tapped for alternative uses. To harness this under-utilised source of energy, a research team from the National University of Singapore (NUS) and Japan's Tohoku University (TU) has developed a technology that uses tiny smart devices known as spin-torque oscillators (STOs) to harvest and convert wireless radio frequencies into energy ...

New species formed when the Mediterranean dried up

2021-05-18
A new study may have uncovered why wall lizards have become the most successful reptile in the Mediterranean region. The results reveal how drastic changes in sea levels and climate 6 million years ago affected species formation in the area. The researchers believe they can now explain why the lizards became so diverse and widespread, something that has puzzled biologists since the 19th century. The study is published in Nature Communications. The evolution of wall lizards offers clues on how major events in the Mediterranean climate and geology millions of years ago affected how species formed or became extinct, and also paved the way for biodiversity. Wall lizards date back around 20 million years. However, ...

University of Surrey delivers novel methods to improve the range and safety of e-vehicles

2021-05-18
A University of Surrey project has revealed innovative methods that could dramatically improve the performance of future electrical vehicles (e-vehicles). As part of the European Union's STEVE* project, Surrey has developed several pioneering approaches to torque vectoring in electric vehicles. In e-vehicles with multiple motors, it is possible to deliver different amounts of drive power to each wheel. This benefits the vehicles' power consumption, safety and driveability. The process of calculating and optimising the precise amount of power needed while the vehicle ...

Land can retain about 1/4 monthly precipitation

Land can retain about 1/4 monthly precipitation
2021-05-18
To support growing human and animal life, freshwater sources must continuously supply water. Freshwater from lakes, rivers, and underground is mainly recharged by rainfall. Ground reservoirs can store rainwater over time, depending on that location's storage capability. However, estimating freshwater storage capability (FSC) is still a challenge due to few observation opportunities and methods to measure and quantify FSC. Prof. Xing Yuan and his Ph.D. student Enda Zhu, from the Institute of Atmospheric Physics at the Chinese Academy of Sciences, developed and applied a new metric that characterizes the "inertia" of water after rainfall. This method allows better ...

LAST 30 PRESS RELEASES:

Call for papers: 14th Asia-Pacific Conference on Transportation and the Environment (APTE 2025)

A novel disturbance rejection optimal guidance method for enhancing precision landing performance of reusable rockets

New scan method unveils lung function secrets

Searching for hidden medieval stories from the island of the Sagas

Breakthrough study reveals bumetanide treatment restores early social communication in fragile X syndrome mouse model

Neuroscience leader reveals oxytocin's crucial role beyond the 'love hormone' label

Twelve questions to ask your doctor for better brain health in the new year

Microelectronics Science Research Centers to lead charge on next-generation designs and prototypes

Study identifies genetic cause for yellow nail syndrome

New drug to prevent migraine may start working right away

Good news for people with MS: COVID-19 infection not tied to worsening symptoms

Department of Energy announces $179 million for Microelectronics Science Research Centers

Human-related activities continue to threaten global climate and productivity

Public shows greater acceptance of RSV vaccine as vaccine hesitancy appears to have plateaued

Unraveling the power and influence of language

Gene editing tool reduces Alzheimer’s plaque precursor in mice

TNF inhibitors prevent complications in kids with Crohn's disease, recommended as first-line therapies

Twisted Edison: Bright, elliptically polarized incandescent light

Structural cell protein also directly regulates gene transcription

Breaking boundaries: Researchers isolate quantum coherence in classical light systems

Brain map clarifies neuronal connectivity behind motor function

Researchers find compromised indoor air in homes following Marshall Fire

Months after Colorado's Marshall Fire, residents of surviving homes reported health symptoms, poor air quality

Identification of chemical constituents and blood-absorbed components of Shenqi Fuzheng extract based on UPLC-triple-TOF/MS technology

'Glass fences' hinder Japanese female faculty in international research, study finds

Vector winds forecast by numerical weather prediction models still in need of optimization

New research identifies key cellular mechanism driving Alzheimer’s disease

Trends in buprenorphine dispensing among adolescents and young adults in the US

Emergency department physicians vary widely in their likelihood of hospitalizing a patient, even within the same facility

Firearm and motor vehicle pediatric deaths— intersections of age, sex, race, and ethnicity

[Press-News.org] Spintronics: Improving electronics with finer spin control
DGIST scientists have found a novel way to control magnetic spins in a localized space