MIT-led researchers have, for the first time, directly mapped the 3D atomic and polar structure of relaxor ferroelectrics, materials critical to sensors and energy devices. Using multi-slice electron ...

MIT-led researchers have, for the first time, directly mapped the three-dimensional atomic and charge structure of relaxor ferroelectrics, materials used in sensors, ultrasound, and sonar. Using multi ...

MIT researchers uncover a hidden 3D atomic structure in relaxor ferroelectrics using electron ptychography, resolving a ...

Materials called relaxor ferroelectrics have been used for decades in technologies like ultrasounds, microphones, and sonar ...

Researchers from MIT and collaborating institutions have, for the first time, directly measured the 3D atomic structure of a ...

Materials called relaxor ferroelectrics have been used for decades in technologies like ultrasounds, microphones, and sonar ...

Accelerator-based high-energy electron diffraction determines 3D atomic structure of materials New method using ultrashort ...

The Department of Science and Technology (DOST) has unveiled new equipment capable of analyzing materials and detecting ...

For the first time, researchers directly characterized the 3D atomic structure of a relaxor ferroelectric, a class of ...

Positronium shouldn't last long enough to be interesting. It's an "atom" assembled from an electron and its antimatter twin — ...

Abstract: The accurate characterization of subsurface discontinuities is crucial for seismic exploration. However, traditional data-domain diffraction separation and imaging methods encounter ...

Antiferromagnetic materials, with antiparallel atomic spins and zero net magnetization, are fast and resistant to external ...