Plasticity in certain semiconductor materials at the nanoscale is actually linked to phase transformation rather than dislocation nucleation, as previously thought. This is shown by the results of an ...
Plasticity in certain semiconductor materials at the nanoscale is actually linked to phase transformation rather than dislocation nucleation, as previously thought.
... in chemical sensing and trace gas analysis. The devices, made by stacking ultra-thin atomic layers of semiconductor materials on top of each other, are variable and tunable, allowing an ...
... for fabricating silicon nanomembranes, the group hopes to use SRC resources to study strain in other semiconductor materials, as well as to make measurements over smaller areas to study the effects of ...
... the 2007 Nobel Prize in Physics, but it is only recently that it has become conceivable for semiconductor materials. Semiconductors with magnetic properties would not only be able to process data, but ...
... of a key magnetic property of specially built semiconductor devices that raises hopes for even smaller and faster gadgets that could result from magnetic data storage in a semiconductor material.
... generate surface plasmons when exposed to light.
The UC Berkeley researchers used semiconductor materials and fabrication technologies that are commonly employed in modern electronics manufacturing. ...
... of Electrical Engineering and Computer Science, has succeeded in combining two semiconductor materials, silicon and gallium nitride, that have different and potentially complementary characteristics, ...
Physicists have used a semiconductor material to create superimposed quantum dots that "trap" single electrons. Not only can these dots be studied with lasers, their energy can be influenced as well. ...
... diodes used in everyday consumer goods like DVD players are currently based on inorganic semiconductor materials such as gallium arsenide, gallium nitride and related alloys. The term 'semiconductor' ...
... B, a journal devoted to condensed matter and materials physics.
The overall goal, Wang and O ... modulation-doped CdTe quantum well -- semiconductor material formed from cadmium and tellurium, sandwiched ...
... that, and the electrons won't bind with their holes to form excitons in this structure). The operating temperature can be increased by choosing different semiconductor materials, the scientists said.
... eyesight.
The recent experiments used quantum dots, fluorescent balls of semiconductor material just six nanometers across (lining up 9,000 dots end to end would equal the ...
... is that such a process applied to conventional electronics leads to catastrophic mechanical fracture in the brittle semiconductor materials.
Rogers and Huang got around this by creating an array of ...
... a convenient source of entangled photons.
Quantum dots are nanoscale regions of a semiconductor material similar to the material in computer processors but with special properties due to their tiny ...
