Enhancement mode high electron mobility transistor

摘要

An enhancement mode HEMT, including: a substrate layer; a buffer layer; barrier layers; drain electrodes; reverse polarization semiconductor layers; source electrodes; an insulated gate dielectric; and a metal gate electrode The buffer layer is disposed on the substrate layer, and the barrier layers are disposed on the buffer layer. Interfaces between the buffer layer and the barrier layers are provided with first heterojunctions having a two-dimensional electron gas (2DEG) channel. The drain electrodes are disposed at one end of the upper surfaces of the barrier layers and form Ohmic contact with the barrier layers. The reverse polarization semiconductor layers are disposed on the upper surfaces of the barrier layers and are able to produce inversed polarization with the barrier layers. The interfaces between reverse polarization semiconductor layers and barrier layers are provided with second heterojunctions having two-dimensional hole gas (2DHG).

主权项

1. An enhancement mode high electron mobility transistor, comprising:
a) a substrate layer; b) a buffer layer; c) barrier layers, each barrier layer comprising an upper surface; d) drain electrodes; e) reverse polarization semiconductor layers, each reverse polarization semiconductor layer comprising an upper surface; f) source electrodes, each source electrode comprising an upper surface; g) an insulated gate dielectric; and h) a metal gate electrode;wherein
the buffer layer is disposed on the substrate layer, and the barrier layers are disposed on the buffer layer; interfaces between the buffer layer and the barrier layers are provided with first heterojunctions comprising a two-dimensional electron gas channel; the drain electrodes are disposed at one end of the upper surfaces of the barrier layers and form Ohmic contact with the barrier layers; the reverse polarization semiconductor layers are disposed on the upper surfaces of the barrier layers and are able to produce inversed polarization with the barrier layers; interfaces between reverse polarization semiconductor layers and barrier layers are provided with second heterojunctions comprising two-dimensional hole gas; the source electrodes are disposed at one end of the upper surfaces of the reverse polarization semiconductor layers away from the drain electrodes; connecting interfaces between the source electrodes and the reverse polarization semiconductor layers are provided with potential wells; between the drain electrodes and the reverse polarization semiconductor layers are provided with hole blocking regions; a groove comprising a bottom and side walls is disposed at one side of the source electrodes away from the drain electrodes; the bottom of the groove is disposed in the buffer layer; the insulated gate dielectric is disposed in the bottom and the side wall of the groove and extends from the upper surfaces of the source electrodes to the drain electrodes; the insulated gate dielectric is covered by the metal gate electrode, and the insulated gate dielectric and the metal gate electrode are combined to form an insulating gate structure.