Heterostructure of a 2.5 THz Range Quantum-Cascade Detector

The design of the heterostructure of a 2.5 THz range quantum-cascade detector is proposed and heterostructure is grown by molecular-beam epitaxy technique. To optimize the thicknesses of the layers of the heterostructure cascades, a numerical method for iterative solution of the Schrödinger–Poisson equation in the kp formalism was used. The grown heterostructure of the quantum-cascade detector showed a high structural perfection, confirmed by the small values of the average FWHM of the high-order satellite peaks on the X-ray diffraction rocking curves, which were (8 . 3 ± 0 . 5) n . Analysis of dark-field images obtained by transmission electron microscopy showed that the total thickness of the layers in the cascade is 137 . 3 ± 6 . 9 nm, which corresponds to the calculated thickness of the layers in the cascade of the heterostructure of the quantum-cascade detector.