The role of Al on Ohmic contact formation on $n$-type GaN and $AlGaN∕GaN$ Available to Purchase

A standard metallization scheme for the formation of Ohmic contacts on $n$-type GaN does exist. It has the following multilayer structure: $Ti∕Al∕metal∕Au$⁠. Ti is known to extract N out of the GaN. This leaves a high density of N vacancies (donors) near the interface pinning the Fermi level. The created tunnel junction is responsible for an Ohmic contact behavior. Au is deposited as the final metal layer to exclude oxidation of the contact and the metal should limit the diffusion of Au into the layers below and vice versa. Al in the metallization scheme is known to improve the contact resistance, but the reason why has not been reported yet. We studied Ti and $Ti∕Al$ contacts on GaN and $AlGaN∕GaN$ as a function of annealing temperature by transmission electron microscopy. The role of Al in the metal multilayer, and of Al in the AlGaN on the Ohmic contact formation, has been determined. The latter result indicates that the standard metallization scheme for GaN cannot be simply transferred to $AlGaN∕GaN$ structures.