Although silicon is still the industry standard due to its widespread availability and low cost, GaAs reclaimed wafers are well-established in certain industries. GaAs wafers are frequently chosen over silicon because of their special qualities and increased performance.
This is particularly relevant to the aerospace sector, where some of the qualities this material has to offer are essential. In this article, we will explain why GaAs outperforms silicon in this field.
GaAs wafers are composed of gallium (Ga) and arsenic (As) atoms. This combination's special qualities make it useful for many industries, including aerospace.
This semiconductor material exhibits remarkable characteristics, including excellent thermal stability, high breakdown voltage, and high electron mobility.
As a result, they become much more reliable in electronic devices, making them ideal for applications requiring high-frequency operation, high power efficiency, and low noise.
GaAs have an advantage in aerospace applications where their intrinsic radiation resistance property and enhanced temperature stability are critical.
Because of that, in this sector, GaAs stands tall over silicon.
Semiconductor technology has fueled innovation in various sectors, including consumer electronics, renewable energy, telecommunications, and aerospace.
And, among all the available materials, Gallium Arsenide wafers have become indispensable instruments in the field of semiconductors, driving progress and facilitating the creation of new technologies.
Here at Wafer World, we’re eager to see which new uses and in which new ways this valuable material can foster innovation. If you’re interested in learning more about the applications of our GaAs wafers, reach out!
