By mixing superfine particles
of silica glass into various polymer liquids, Wagner created solutions that add strength to Kevlar and other fabrics.
Faccio and his colleagues created the event horizons in a two - centimeter - long section of
fused silica glass, a medium in which intense laser pulses can locally perturb the refractive index, or speed of light passing through the material.
Researchers precisely measured the rapid transformation of a fused
silica glass into stishovite using SLAC's X-ray laser, the Linac Coherent Light Source.
Han and postdoctoral researcher Guigen Liu achieved the results by attaching a small silicon pillar to the tip of the fused
silica glass typically used in fiber optics.
By embedding tiny pyramid - and cone - shaped structures on an incredibly thin layer
of silica glass, the researchers found a way of redirecting unwanted heat — in the form of infrared radiation — from the surface of solar cells, through the atmosphere, and back into space.
Researchers developed a hollow optomechanical device made of
fused silica glass, through which fluids and gases could flow.
This was made of
silica glass and powered by a commercial laser beam, at the SLAC laboratory in the USA.
The EDLT comprised GO on
a silica glass substrate gated by a zirconia proton conductor.
And why should we separate the study of amorphous cast sugar and
silica glass?
In the experiment at SLAC, researchers used lasers to create a shock wave in samples of
silica glass.
By adding a specially patterned layer of
silica glass to the surface of ordinary solar cells, a team of researchers led by Shanhui Fan, an electrical engineering professor at Stanford University in California has found a way to let solar cells cool themselves by shepherding away unwanted thermal radiation.