Multiple wavelength quantum cascade light source

Abstract

A multiple wavelength quantum cascade (QC) superlattice (SL) light source has at least three energy levels in each radiative transition (RT) region, and electron transitions between the levels give rise to emission lines at different wavelengths. In one embodiment, a lower miniband has at least a first energy level and an upper miniband has at least third and fourth energy levels. In another embodiment, the lower miniband has first and second energy levels. In both cases, electron transitions between a first pair of the upper and lower levels generates light at a first spontaneous emission line having a center wavelength .lambda..sub.1 and a line broadening first energy, and electron transitions between a second pair of the upper and lower levels generates light at a second spontaneous emission line having a center wavelength .lambda..sub.2 and a line broadening second energy. The energy separation of the center wavelengths is greater than the larger of the first and second line broadening energies, and means are provided for inhibiting the relaxation of electrons from the fourth level to said third level. In a preferred embodiment, which is particularly suited to lasers made from Group III-V compound semiconductors, the inhibiting means hinders the emission of optical phonons. One way to inhibit these phonons is to make the energy separation of the upper levels less than the energy of an optical phonon in the active region.