abstract |
A compound semiconductor device includes hexagonal silicon carbide crystal substrate and a boron-phosphide-based semiconductor layer formed on the silicon carbide crystal substrate, wherein the silicon carbide crystal substrate has a surface assuming a {0001} crystal plane, and the boron-phosphide-based semiconductor layer is composed of a {111} crystal stacked on and in parallel with the {0001} crystal plane of the silicon carbide crystal substrate, and when the number of the layers contained in one periodical unit of an atomic arrangement in the [0001] crystal orientation of the silicon carbide crystal substrate is n, an n-layer-stacked structure included in the {111} crystal plane forming the {111} crystal has a stacking height virtually equal to the c-axis lattice constant of the silicon carbide crystal substrate. |