This generates a circular electron density wave that propagates through the graphene ... This was achieved with a resolution on the nanometer scale – relevant for modern semiconductor technologies – ...

Note that thanks to a breakdown field that’s greater than 16 MV cm-1 and a high electron mobility ... For radii larger than this, current density decreases with increasing device area. Plots of ...

In this modern era, Ramalinga Reddy Kotapati, a distinguished expert in semiconductor technologies ... overcoming challenges caused by process variations, temperature-induced effects, and voltage ...

The as-anodized PSi FSM underwent thermal oxidation in air at a temperature of 500 °C for a duration of ... Representative PSi samples were fabricated for characterization by scanning electron ...

Cornell scientists have developed a novel technique to transform symmetrical semiconductor particles into intricately ... such as holographic 3D displays, room-temperature quantum computing, ultra-low ...

Scientists at the University of Twente (UT), The Netherlands, have developed a new laser-based method to create highly-ordered semiconductor material at room temperature ... where high order and low ...

Water is ubiquitous and seemingly ordinary, possessing no distinct color or odor. Though we often take water for granted, it ...

Osaka University's study on VO2 metamaterials demonstrates improved terahertz detection in silicon devices, highlighting ...

Semiconductor foundries accurately capture device-level variations by developing statistical models. This has enabled variation-aware design techniques to minimize the likelihood of integrated circuit ...

This first-order model of planetary growth in the solar nebula is mainly driven by temperature and density variation, but there are many other factors that contributed as well, such as planet ...