Knowledge

Epitaxial Wafer Growth on 4H-SiC Substrates

This article explains how epitaxial wafers are grown on 4H-SiC substrates for power and RF semiconductor devices, covering growth methods, defect control, doping profiles, and practical considerations for device-grade epitaxy.

4H-SiC Substrate & Wafer — Wide Bandgap Power S...

4H-SiC substrates and wafers are the foundation of modern wide bandgap power semiconductors, enabling high-voltage, high-temperature, and high-efficiency devices. This article explains 4H-SiC crystal growth, wafer specifications, doping and orientation...

4H-SiC Single Crystal and Wafer Guide for Power...

4H-SiC (4H Silicon Carbide) is a wide bandgap semiconductor widely used in power electronics and high-temperature devices. This article explains 4H-SiC crystal properties, wafer specifications, doping types, and how engineers...

How to Choose Nd:YAG / Yb:YAG / Er:YAG for Your...

Nd:YAG, Yb:YAG, and Er:YAG are the three most important YAG-based laser crystals, each optimized for different wavelengths and laser regimes. Nd:YAG is ideal for 1064 nm solid-state lasers and Q-switched...

YAG Crystal Family Comparison Guide

Comparison guide to the YAG crystal family, including Nd:YAG, Yb:YAG, Er:YAG, Cr:YAG, and Ce:YAG. Explains functional differences between laser gain media, passive Q-switches, and scintillators to help select the right YAG material for laser,...

Ce:YAG Scintillator Crystal | Fast Scintillatio...

A technical material guide to Ce:YAG single crystals used as scintillators and phosphors.Covers crystal growth, Ce³⁺ doping concentration, scintillation properties, optical polishing,and application requirements for radiation detection and imaging systems.