Strain engineering, which involves deliberately stretching or compressing a crystal lattice, is used to boost the speed of electron flow in a device. Even a fraction of percent change in lattice ...
Geological faults hold many secrets that may help us answer important questions about the nature of our planet and what ...
In 1982, materials scientist Dan Shechtman observed an unusual tenfold symmetry in an aluminum-manganese alloy, defying the ...
Indian Defence Review on MSN
The Sand That Melted Under the World’s First Nuclear Explosion Revealed a Crystal Structure Nobody Expected
Eighty years on, a fragment of fused desert sand is still upending materials science, researchers have now identified two ...
Scientists have pulled off a mind-bending quantum experiment that sounds almost impossible: they showed that tiny metal ...
Nearly 80 years after the event, trinitite still has the power to amaze.
Optical super-resolution resolves 137 nm features, matching SEM performance and exceeding a standard 100x objective.
This article explores LIG’s SMAL lenses, including their design principles, manufacturing methods, and performance in ...
Interesting Engineering on MSN
New method creates nanoscale patterns on hard material at room temperature, can boost chip-making
A new technique is helping scientists create nanoscale patterns on chip materials at room ...
A new chip-making technique exploits a material's crystal structure to create nanoscale patterns at room temperature directly onto hard materials used in devices, including silica. The method could ...
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