(Press-News.org) Like electronics or photonics, magnonics is an engineering subfield that aims to advance information technologies when it comes to speed, device architecture, and energy consumption. A magnon corresponds to the specific amount of energy required to change the magnetization of a material via a collective excitation called a spin wave.
Because they interact with magnetic fields, magnons can be used to encode and transport data without electron flows, which involve energy loss through heating (known as Joule heating) of the conductor used. As Dirk Grundler, head of the Lab of Nanoscale Magnetic Materials and Magnonics (LMGN) in the School of Engineering explains, energy losses are an increasingly serious barrier to electronics as data speeds and storage demands soar.
“With the advent of AI, the use of computing technology has increased so much that energy consumption threatens its development,” Grundler says. “A major issue is traditional computing architecture, which separates processors and memory. The signal conversions involved in moving data between different components slow down computation and waste energy.”
This inefficiency, known as the memory wall or Von Neumann bottleneck, has had researchers searching for new computing architectures that can better support the demands of big data. And now, Grundler believes his lab might have stumbled on such a “holy grail”.
While doing other experiments on a commercial wafer of the ferrimagnetic insulator yttrium iron garnet (YIG) with nanomagnetic strips on its surface, LMGN PhD student Korbinian Baumgaertl was inspired to develop precisely engineered YIG-nanomagnet devices. With the Center of MicroNanoTechnology‘s support, Baumgaertl was able to excite spin waves in the YIG at specific gigahertz frequencies using radiofrequency signals, and – crucially – to reverse the magnetization of the surface nanomagnets.
“The two possible orientations of these nanomagnets represent magnetic states 0 and 1, which allows digital information to be encoded and stored,” Grundler explains.
A route to in-memory computation
The scientists made their discovery using a conventional vector network analyzer, which sent a spin wave through the YIG-nanomagnet device. Nanomagnet reversal happened only when the spin wave hit a certain amplitude, and could then be used to write and read data.
“We can now show that the same waves we use for data processing can be used to switch the magnetic nanostructures so that we also have nonvolatile magnetic storage within the very same system,” Grundler explains, adding that “nonvolatile” refers to the stable storage of data over long time periods without additional energy consumption.
It’s this ability to process and store data in the same place that gives the technique its potential to change the current computing architecture paradigm by putting an end to the energy-inefficient separation of processors and memory storage, and achieving what is known as in-memory computation.
Optimization on the horizon
Baumgaertl and Grundler have published the groundbreaking results in the journal Nature Communications, and the LMGN team is already working on optimizing their approach.
“Now that we have shown that spin waves write data by switching the nanomagnets from states 0 to 1, we need to work on a process to switch them back again – this is known as toggle switching,” Grundler says.
He also notes that theoretically, the magnonics approach could process data in the terahertz range of the electromagnetic spectrum (for comparison, current computers function in the slower gigahertz range). However, they still need to demonstrate this experimentally.
“The promise of this technology for more sustainable computing is huge. With this publication, we are hoping to reinforce interest in wave-based computation, and attract more young researchers to the growing field of magnonics."
END
Magnon-based computation could signal computing paradigm shift
EPFL researchers have sent and stored data using charge-free magnetic waves, rather than traditional electron flows. The discovery could solve the dilemma of energy-hungry computing technology in the age of big data.
2023-03-29
ELSE PRESS RELEASES FROM THIS DATE:
New ways to protect food crops from climate change and other disruptions
2023-03-29
“There’s no doubt we can produce enough food for the world’s population - humanity is strategic enough to achieve that. The question is whether - because of war and conflict and corruption and destabilization - we do,” said World Food Programme leader David Beasley in an interview with Time magazine earlier this year.
Indeed, projections show that we are not on track to achieve Sustainable Development Goal 2 of Zero Hunger by 2030. As climate and security crises continue to destabilise our food sources, researchers are taking a critical look not just at how we produce food - but at the entire systems behind ...
Immune Checkpoint Inhibitor Antitumor Response: Decoding Molecular Mechanisms
2023-03-29
Immune checkpoint inhibitors (ICIs) are widely sought after for the treatment of different types of cancers. Unfortunately, only 20–30% patients with cancer respond to ICI treatment. Although the factors that influence the positive or negative response to ICI treatment are poorly understood, the strength of the ICIs’ antitumor response by TILs is thought to play a key role. Hence, investigating the antitumor response induced by ICIs might provide insights into their underlying mechanism.
It is known that CD8+ tumor-infiltrating T-lymphocytes (TILs) are the primary effector cells that lead ...
Olivier Delattre, MD, Ph.D., honored with 2023 AACR-St. Baldrick’s Foundation Award for Outstanding Achievement in Pediatric Cancer Research
2023-03-29
PHILADELPHIA – The American Association for Cancer Research (AACR) will award Olivier Delattre, MD, PhD, with the 2023 AACR-St. Baldrick’s Foundation Award for Outstanding Achievement in Pediatric Cancer Research during the AACR Annual Meeting 2023, April 14-19 at the Orange County Convention Center in Orlando, Florida.
Delattre is the director of the SIREDO Oncology Center and the research unit director of the Cancer, Heterogeneity, Instability and Plasticity (CHIP) unit at Inserm/Institut Curie. ...
SwRI’s NASGRO software selected for Space Technology Hall of Fame
2023-03-29
SAN ANTONIO — March 29, 2023 —The NASGRO® software suite will be inducted into the Space Technology Hall of Fame alongside the leaders of its development team, Southwest Research Institute’s Dr. Craig McClung and Joe Cardinal, as well as Joachim Beek of NASA’s Johnson Space Center (JSC). The award ceremony will occur during the annual Space Symposium in Colorado Springs. NASGRO, originally developed by NASA and currently managed by SwRI, analyzes fatigue crack growth and fracture in structures and mechanical components. It is a key tool used to substantiate the structural integrity of aircraft, spacecraft, rotorcraft, gas turbine engines, pressure ...
Study shows human brain can assist with computational ghost imaging
2023-03-29
Interacting with computers by brain activity seems less futuristic these days, thanks to researchers and entrepreneurs who have been attempting to tap the potential of brain-computer interfaces for augmented cognitive abilities. Recently, Gao Wang and Daniele Faccio at the University of Glasgow demonstrated that it is possible to connect a human brain and a computer to perform simple computational imaging tasks. Similar advances could someday extend the sensing range of human vision and provide new approaches to the neurophysics of human perception. This research was published Feb. 24 in Intelligent Computing, a Science Partner ...
COVID-19 during pregnancy may increase obesity risk in children
2023-03-29
WASHINGTON—Children born to mothers who had COVID-19 during pregnancy may be more likely to develop obesity, according to a new study published in the Endocrine Society’s Journal of Clinical Endocrinology & Metabolism.
More than 100 million COVID-19 cases have been reported in the United States since 2019, and there is limited information on the long-term health effects of the infection. Pregnant women make up 9% of reproductive-aged women with COVID-19, and millions of babies will be exposed to maternal infection during ...
Advanced pancreatic cancer model for developing personalized therapies
2023-03-29
(LOS ANGELES) – March 28, 2023 - Pancreatic ductal adenocarcinoma (PDAC), is highly aggressive and lethal. It is the most prevalent type of pancreatic cancer, making up 90% of cases; it also has a high rate of metastasis, with an average five-year survival rate of less than 10%.
It is thought that the dense, stiff matrix immediately surrounding its tumor cells plays a major role in PDAC disease progression. In addition to influencing pancreatic tissue fibrosis, it also limits accessibility and effectiveness of anticancer drugs against the tumor and enhances the promotion of surface ...
Surgical sealing made better with robust thermosensitive bioadhesives
2023-03-29
(LOS ANGELES) – March 28, 2023 - As part of a collaborative effort, scientists from the Terasaki Institute for Biomedical Innovation (TIBI) have employed inventive chemistry to produce an injectable biomaterial with significantly improved adhesive strength, stretchability, and toughness. This chemically modified, gelatin-based hydrogel had attractive features, including rapid gelation at room temperature and tunable levels of adhesion. This custom-engineered biomaterial is ideal as a surgical wound sealant, with its controllable adhesion and injectability and its superior ...
Personalized gut microbiome analysis for colorectal cancer classification with explainable AI
2023-03-29
The gut microbiome comprises a complex population of different bacterial species that are essential to human health. In recent years, scientists across several fields have found that changes in the gut microbiome can be linked to a wide variety of diseases, notably colorectal cancer (CRC). Multiple studies have revealed that a higher abundance of certain bacteria, such as Fusobacterium nucleatum and Parvimonas micra, is typically associated with CRC progression.
Based on these findings, researchers have ...
Three newly discovered sea worms that glow in the dark named after creatures from Japanese folklore and marine biologist
2023-03-29
A research group from Nagoya University in central Japan has discovered three new species of bioluminescent polycirrus worms from different parts of Japan. Usually found in shallow water, polycirrus are small worms, known for their bioluminescence. The researchers named one of their discoveries after a ghostly yokai, a creature in Japanese foklore; another after a lantern yokai; and the other after an influential Japanese marine biologist. They published their findings in the journal Royal Society Open Science.
Scientists have studied only a small fraction of the more than 7,000 species of luminescent organisms in the world. Research remains limited to certain species because ...
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] Magnon-based computation could signal computing paradigm shiftEPFL researchers have sent and stored data using charge-free magnetic waves, rather than traditional electron flows. The discovery could solve the dilemma of energy-hungry computing technology in the age of big data.