High Performance CMOS-Compatible RF GaN-on-Silicon HEMTs With Low-Resistive and Highly-Conformal Ohmic Contacts

This article presents Au-free ohmic contacts with low contact resistance for AlGaN/GaN high electron mobility transistors (HEMTs) on silicon substrates, featuring a hybrid-deposited Si/Ti/Al/Ti/TiN metal stack and incorporating deep ohmic trenches. The proposed ohmic contact design achieved a low contact resistance of 0.12 Omega & sdot;mm and a smooth surface with a root mean square (rms) roughness of 5.68 nm concurrently. A high-resolution transmission electron microscope (HRTEM) reveals an excellent ohmic metal-semiconductor interface, and a contact mechanism for the optimized topological structure was proposed. Attributing to the excellent ohmic contact performance, the fabricated hybrid-deposited Si/Ti/Al/Ti/TiN ohmic contacts (HDOC) HEMTs exhibited a low on-resistance ( R-on ) of 1.58 Omega & sdot;mm , a low knee voltage of 1.7 V, and a peak transconductance of 355 ms/mm. Moreover, the proposed ohmic topological structure improves the BV- R-ON trade-off relationship, which enables low R-ON at high operation voltage. RF small-signal measurements delivered a cut-off frequency ( f(T )) of 27.8 GHz and a maximum oscillation frequency ( f(max) ) of 51.4 GHz, which indicates a significant f(max) improvement of 54.3% compared to the reference HEMT. These results are expected to enhance the high-performance and cost-effective CMOS-compatible GaN-on-Si HEMTs applied for RF applications.