Low Resistance Non-Alloyed Ohmic Contacts to High Al Composition n-type AlGaN
Abstract
Ohmic contacts to high (>70\%) Al content n-type AlxGa1-xN ultra-wide bandgap semiconductor layers in nitride electronic and photonic devices are typically fabricated by a lift-off process and high temperature (>700) thermal alloying. These conditions often result in significant structural deformations of the fabricated structures and impose a harsh thermal budget on all other aspects of the device. Here, we report the fabrication of non-alloyed as-deposited ohmic contacts to 71\% n+AlGaN (Eg5.4~eV) with a free carrier concentration of roughly 7× 1019~cm-3 and a resistivity of 4 - 5.5 m (among the lowest reported for Al0.71Ga0.29N) with linear I-V characteristics and a contact resistivity of c=(4.41.0)×10-4~2 (measured at zero voltage). Contacts with this quality are formed by two separate fabrication schemes: (i) metal-first patterning, and (ii) lift-off with an oxygen asher descum prior to metal deposition. Given the low threading dislocation density in the single-crystal AlN substrate used for epitaxy, the smooth morphology of the contacted epitaxial surface, and the non-alloyed nature of the contacts, this contact resistivity is attributed purely to thermionic field emission through the metal-semiconductor junction. Contact resistivity extraction at low current injection enables us to model these results using a thermionic field-emission model of contact resistivity, yielding a barrier height for Ti/Al0.71Ga0.29N of (0.810.02) eV.
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