Knowledge
4H-SiC for RF, Microwave, and mmWave Electronics
4H-SiC (4H Silicon Carbide) is widely used in RF, microwave, and mmWave electronics for high-power, high-frequency applications requiring excellent thermal performance and reliability.
4H-SiC for RF, Microwave, and mmWave Electronics
4H-SiC (4H Silicon Carbide) is widely used in RF, microwave, and mmWave electronics for high-power, high-frequency applications requiring excellent thermal performance and reliability.
One-Stop Semiconductor Device Prototyping Servi...
One-stop semiconductor device prototyping integrates substrates, custom crystals, photomask fabrication, thin-film deposition, microfabrication, packaging, and testing. It provides research teams with rapid, low-volume device manufacturing that bypasses the time and...
One-Stop Semiconductor Device Prototyping Servi...
One-stop semiconductor device prototyping integrates substrates, custom crystals, photomask fabrication, thin-film deposition, microfabrication, packaging, and testing. It provides research teams with rapid, low-volume device manufacturing that bypasses the time and...
Custom Optical Components (Quartz, Sapphire, Wi...
A technical guide to custom optical components for research labs, focusing on quartz andsapphire windows, viewports, and optical access components. Covers material selection,optical transmission, temperature and vacuum compatibility, polishing, and...
Custom Optical Components (Quartz, Sapphire, Wi...
A technical guide to custom optical components for research labs, focusing on quartz andsapphire windows, viewports, and optical access components. Covers material selection,optical transmission, temperature and vacuum compatibility, polishing, and...
Etching
Technical overview of etching processes used in microfabrication, including chemical etching, plasma etching, and reactive-ion etching (RIE), with applications in semiconductors, MEMS, and thin-film devices.
Etching
Technical overview of etching processes used in microfabrication, including chemical etching, plasma etching, and reactive-ion etching (RIE), with applications in semiconductors, MEMS, and thin-film devices.
Photolithography
Photolithography is a core semiconductor fabrication process that uses UV light and photomasks to transfer micro-scale patterns onto substrates. This guide explains how photolithography works, why it is critical for...
Photolithography
Photolithography is a core semiconductor fabrication process that uses UV light and photomasks to transfer micro-scale patterns onto substrates. This guide explains how photolithography works, why it is critical for...