In a high quality factor microcavity, photons can strongly couple with the excitons, formed by electrons and holes by Coulomb interaction in solid materials, to generate a new kind of quasi-particle, called exciton-polariton or polariton, with half-matter and half-light characteristics. Polariton is a kind of Boson, which is able to form Bose-Einstein condensation through stimulated scattering of polaritons at the ground state and to emit coherent photons when polaritons escape from the cavity. Recently, semiconductor microcavities have been considered as a promising solid light sources because they can potentially be applied in vertical-cavity surface emitting lasers, single photon sources and other optoelectronic devices^(1-6). In this report, we not only give an introduction to semiconductor microcavity polariton lasers, but also introduce the technology we need to characterize the polariton lasers.