From spintronics to magnetic dynamics and magnetic materials/devices for computing, Luqiao helps shape JMMM with reviews that aim to be efficient, constructive, and fair. 💬 Have a question about publishing in JMMM? Ask below 👇 #JMMM #Magnetism #Spintronics #MagneticMaterials

🎯 JMMM turns 50! Explore our list of the most influential papers of the past 50 years. Scan the QR code & dive in. Which paper is your favorite (or most impactful)? Drop the title/DOI in the comments! 👇 #JMMM #Magnetism #MagneticMaterials

Breakthrough AI Tool Identifies 25 Previously Unknown Magnetic Materials New research may help reduce reliance on rare earth elements used to power modern technology.

Breakthrough AI Tool Identifies 25 Previously Unknown Magnetic Materials #Science #TechnologyandEngineering #AIResearch #MagneticMaterials #Innovation

scitechdaily.com/breakthrough-ai-tool-ide...

2025 marked 𝟱𝟬 𝘆𝗲𝗮𝗿𝘀 𝗼𝗳 𝗱𝗶𝘀𝗰𝗼𝘃𝗲𝗿𝘆 𝗮𝘁 𝘁𝗵𝗲 𝗝𝗼𝘂𝗿𝗻𝗮𝗹 𝗼𝗳 𝗠𝗮𝗴𝗻𝗲𝘁𝗶𝘀𝗺 𝗮𝗻𝗱 𝗠𝗮𝗴𝗻𝗲𝘁𝗶𝗰 𝗠𝗮𝘁𝗲𝗿𝗶𝗮𝗹𝘀. As we move forward, a new chapter of innovation begins. What’s your next big magnetic discovery? Share your research goals with us.

#JMMM #JMMM50 #Magnetism #MagneticMaterials #CondensedMatter

📢 𝗝𝗠𝗠𝗠 𝗮𝘁 𝗠𝗠𝗠 𝟮𝟬𝟮𝟱 — 𝗣𝗮𝗹𝗺 𝗕𝗲𝗮𝗰𝗵, 𝗙𝗟
Sponsoring:
✨ 𝗦𝗽𝗲𝗰𝗶𝗮𝗹 𝗘𝘃𝗲𝗻𝗶𝗻𝗴 𝗦𝗲𝘀𝘀𝗶𝗼𝗻 — 𝟱𝟬 𝗬𝗲𝗮𝗿𝘀 𝗼𝗳 𝘁𝗵𝗲 𝗠𝗮𝗴𝗻𝗲𝘁𝗶𝗰 𝗧𝘂𝗻𝗻𝗲𝗹 𝗝𝘂𝗻𝗰𝘁𝗶𝗼𝗻 (𝗠𝗧𝗝)
📅 Today, October 28 | 6:00–8:00 p.m.

🔗 For more: 2025.magnetism.org

#JMMM #MMM2025 #Magnetism #Spintronics #MagneticMaterials #MagneticsConference #PhysicsCommunity

Moving Abrikosov vortex lattices generate sub-40-nm magnons - Nature Nanotechnology In a hybrid superconductor–ferromagnet device, the dynamic stray fields of current-driven vortices unidirectionally excite coherent short-wavelength magnons.

New paper: Moving Abrikosov vortex lattices generate sub-40-nm magnons.

In a hybrid superconductor #ferromagnet device, the dynamic stray fields of current-driven vortices unidirectionally excite coherent short-wavelength #magnons.

#MagneticMaterials
#QuantumEffects

www.nature.com/articles/s41...

Husker Physicist Studying How Disordered Materials May Advance Microelectronics | Newswise A University of Nebraska–Lincoln physicist is studying how disordered, noncrystalline materials could power the next generation of microelectronics, including computing systems that mimic the hum

Husker Physicist Studying How Disordered Materials May Advance Microelectronics
www.newswise.com/articles/hus...
#disorderedmaterials #MagneticMaterials #stemeducation #artificialintelligence #physics #AI

Pentacosaple-CO32− bridged hexacontaoctanuclear lanthanide-alkali barrels derived from octacosanuclear discs Phosphonate lanthanide carbonate cages are highly sought after in the development of multifunctional molecular-based materials due to their rigid framework and the inherent properties of metal ions. H...

🔥Pentacosaple-CO₃²⁻ bridged hexacontaoctanuclear lanthanide-alkali barrels derived from octacosanuclear discs by Li et al. 🛢️ Stepwise assembly of Dy₁₆K₁₂ → Dy₂₄Na₄₄ cages shows tunable supramolecular structure & magnetic relaxation. 🔗 doi.org/10.1039/D5QI...

#LanthanideCages #MagneticMaterials

Thought To Be Impossible – Scientists Rewrite a Material’s “Magnetic DNA” Is it magic? Physicists at the University of Konstanz have successfully altered the properties of a material using light and magnons in a non-thermal manner. What if it were possible to temporarily change...

Thought To Be Impossible – Scientists Rewrite a Material’s “Magnetic DNA” #Science #Physics #CondensedMatterPhysics #MagneticMaterials #CondensedMatter #InnovativeEngineering

In this study, Guo et al. point out that more lattice types can be considered geometrically frustrated since a single triangular motif is sufficient to introduce geometrical frustration. Read more
doi.org/10.1016/j.xi...
#GeometricFrustration #MagneticMaterials

Quantum Breakthrough: Physicists Discover “Lonely” Spinon That Defies Magnetic Norms A new discovery reveals how a mysterious quantum spin excitation — a solitary spinon — can exist alone, hinting at advances in quantum technologies. Scientists from the Faculty of Physics at the University...

Quantum Breakthrough: Physicists Discover “Lonely” Spinon That Defies Magnetic Norms #Science #Physics #QuantumPhysics #Spinon #MagneticMaterials

Watching Magnetic Materials Get Organized in Real Time Scientists have developed a new method called Coherent Correlation Imaging to directly image the changing structure in magnetic materials in real time and with high spatial resolution. It will help sc...

Watching Magnetic Materials Get Organized in Real Time
www.newswise.com/doescience/w...
#scientists #electronics #researchers #magnetic #nanoscale #Newswise #MagneticMaterials

Magnetic Materials Breakthrough | Global Journal of Materials Chemistry (GJMC) | Displaycia | Submit Your Manuscript: Submission is OPEN NOW!

📢 Magnetic Materials Breakthrough!

📌 Follow us for more updates: @displaycia.bsky.social

🔗 Read more: displaycia.com/mater...

🔗 Get in touch with us: displaycia.com/mater...

#MagneticMaterials #MaterialsChemistry #ScientificResearch #Development #ManuscriptSubmission #Displaycia

What Can Defects Tell Us About Magnetic Materials? TM-CNN's Defect Whisperer Approach :::info Authors: (1) VINÍCIUS YU OKUBO, Dept. Electronic Systems Engineering, Polytechnic School, University of São Paulo, Brazil; (2) KOTARO SHIMIZU, Department of Applied Physics, The University of...

What Can Defects Tell Us About Magnetic Materials? TM-CNN's Defect Whisperer Approach #Technology #EmergingTechnologies #QuantumComputing Other. #MagneticMaterials #TM-CNN

What Can Defects Tell Us About Magnetic Materials? TM-CNN's Defect Whisperer Approach

Defect dynamics unveiled! TM-CNN quantifies junctions/terminals in magnetic films, linking structure to material properties. #magneticmaterials

Magnetic Microflowers Amplify Fields and Transform Sensors Tiny magnetic “flowers” engineered by physicist Anna Palau are redefining how we manipulate magnetic fields. These metamaterials, designed with petal-like structures, focus magnetic energy to a central...

Magnetic Microflowers Amplify Fields and Transform Sensors #Science #Physics #CondensedMatterPhysics #MagneticMaterials #Sensors #Nanotechnology

Or come to Vienna on APR 7, 2025 to participate in the Satellite MaMMoS workshop "Data-driven Magnetic Materials Design and Optimization". Join for free - registration emmc.eu/events/mammo... Get reduced EMMC 2025 reg fee! #magneticmaterials

High-brilliance synchrotron radiation helps identify best composition for half-metal alloys Half-metals are unique magnetic compounds that have been attracting interest in the development of mass-storage technologies. Some of the materials in the family of Heusler alloys were predicted to have a half-metallic nature, but their half-metallic electronic structure varies with their composition ratio and atomic ordered structure.

Mysterious Half-Metals: Unlocking secrets of magnetism & mass storage technologies! #HalfMetals #MagneticMaterials #TechInnovation

Source: phys.org/news/2025-01-high-brilli...

Next-Gen AI Hardware Uses Spin Waves to Unlock Unmatched Computing Power Researchers developed an iono-magnonic reservoir computing device leveraging spin wave manipulation through ion-gating, achieving groundbreaking computational efficiency for AI systems.

Next-Gen AI Hardware Uses Spin Waves to Unlock Unmatched Computing Power 🌐💡📊 www.azoai.com/news/2025011... #AI #SpinWaves #ReservoirComputing #IonGating #AdvancedScience #Neuromorphic #Innovation #EnergyEfficiency #MagneticMaterials #Computing

* A new class of magnetism called altermagnetism has been imaged for the first time, with the potential to increase operation speeds of up to a thousand times. * Altermagnetism is a distinct form of magnetic order where the tiny constituent magnetic building blocks align antiparallel to their neighbors, but the structure hosting each one is rotated compared to its neighbors. * Scientists from the University of Nottingham have shown that altermagnetism exists and can be controlled in microscopic devices. * Altermagnetic materials have the potential to lead to a thousand-fold increase in speed of microelectronic components and digital memory while being more robust and energy efficient. * The new experimental study was carried out at the MAX IV international facility in Sweden using a synchrotron to produce x-rays and detect the magnetism in the material. * The discovery could lead to the development of new magnetic memory devices and reduce the reliance on rare and toxic heavy elements needed for conventional ferromagnetic technology. * #Altermagnetism * #MagneticMaterials * #QuantumPhysics * #MaterialsScience * #NewDiscovery * #NatureJournal * #UniversityOfNottingham * #MAXIVfacility * #MagneticMemoryDevices * #Sustainability * #GreenTechnology https://www.nottingham.ac.uk/news/researchers-discover-new-third-class-of-magnetism-that-could-transform-digital-devices

* #Altermagnetism
* #MagneticMaterials
* #QuantumPhysics
* #MaterialsScience
* #NewDiscovery
* #NatureJournal
* #UniversityOfNottingham
* #MAXIVfacility
* #MagneticMemoryDevices
* #Sustainability
* #GreenTechnology

www.nottingham.ac.uk/news/researc...

International Workshop - Data-driven Magnetic Materials Design and Optimization 05.04.2025 | Data-driven Magnetic Materials Design and optimization | Satellite Workshop | EMMC | Accelerated Innovation and Sustainability by a Materials Modelling and Data Ecosystem<br/><br/>

If you are interested in #magneticmaterials #materialsmodelling #multiscaleworkflows: www.donau-uni.ac.at/de/universit...

Academic Europe - PhD position: Spin waves get a twist! (P2402) 100 %

Job - Alert 🚀

➡ PhD position: Spin waves get a twist! (P2402) 100 %

Deadline: 2024-12-31

Location: Switzerland, Basel

APPLY: www.academiceurope.com/job/?id=5663

#jobs #hiring #magneticmaterials #materialsscience #measurementtechnology #physics #quantumsensing