Engineers at the University of Delaware have uncovered a way to bridge magnetism and electricity through magnons—tiny waves ...
Small in-plane magnetic fields switch skyrmion chirality and improve lattice order in a two-dimensional magnet, pointing to ...
As someone who studies materials, Lu Li knows people want to hear about the exciting new applications and technologies his ...
Interesting Engineering on MSN
Scientists create world’s first plasma fireballs to solve space magnet mystery
In a world first, plasma “fireballs” have been created in the lab setting using the Super Proton Synchrotron accelerator at ...
Scientists have recreated plasma fireballs in a lab to investigate the disappearance of certain gamma rays in space.
Today's computers store information in magnetic hard drives, keeping files safe even when the device is powered off. But to ...
Magnetic microrobots carry medicine through blood and release it only where needed, while being tracked inside the body using ...
Space on MSN
The International Space Station will fall to Earth in 2030. Can a private space station really fill its gap?
When the International Space Station plunges to its fiery doom in 2030, its loss to science will be incalculable, even if it ...
1don MSN
Magnetized approach to kidney stone retrieval outperforms standard methods in preclinical study
Stanford University has unveiled a ureteroscopy-compatible device that magnetizes and retrieves kidney stone fragments with a ...
In the future, a new type of computer may be able to learn much like you do—by experience rather than endless repetition or ...
A new theoretical study led by University of Delaware engineers reveals that magnons, a type of magnetic spin wave, can produce detectable electric signals. Pictured, Matt Doty, professor in the ...
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