Advertisment

SPS launches 'Hot substrate deposition of fused silica'

author-image
CIOL Bureau
Updated On
New Update

MESA, USA: Semiconductor Products and Services (SPS), a completely owned subsidiary of Crystal Research Corporation (CRC), a hi-tech technology crystal and semiconductor products manufacturing company, has announced that it has added one more technology to its portfolio, "Hot Substrate Deposition of Fused Silica".

Advertisment

The technique converts gases or liquids into quartz particles to form high purity, restricted water content or water free, doped or undoped artificial quartz body. Preferred index of refraction, purity and mechanical power for different quartz parts for the semiconductor and optical markets is at present made achievable. The technology is a extension in part of CRC's expansion into the semiconductor equipment and equipment support market and establishing a gateway for a lot of of its original technologies for that marketplace.

"CRC currently provides quartz products and services to the semiconductor sector through its Semiconductor Products and Services (SPS) Division." said Dr. Kiril Pandelisev, Chief Executive Officer of CRC.  He added, "This patent opens the gate to develop our offering of advanced purity quartz for the semiconductor and the fiber optic fabrication marketplace. At present we can provide the newest PC's to devices used in the automotive vehicles and a variety of home appliances. It just adds to our product menu appropriate for companies for example ASM International (ASMI), Boeing (BA), Northrop Grumman (NOC), Lockheed Martin (LMT), Intel (INTC), Microchip (MCHP), Carl Zeiss, Canon, and others."

Dr Don Jackson, President of the SPS division stated "Being able to provide highest grade fused silica based material opens the doors for higher quality quartz products for the semiconductor industry, in addition to fused silica boules for fabrication of optical fibers. Restricted OH, doped and undoped, fused silica products can at present be presented by us.”

semicon