The traditional chemo-mechanical polishing in HgCdTe infrared detector production leaves the surface of the MCT wafer covered with a damaged layer to a certain depth. Chemical etching can reduce some of those damages, however leaves a rough surface. Chemo-mechanical polishing with bromine-methanol can reduce the damage more effectively, produce stoichiometric MCT surface and increase the minority carrier lifetime while the surface is smooth and mirror-like. There are three variable parameters in bromine-methanol polishing which are volume ratio of bromine-methanol, polishing time and rotate rate of the turntable. Different parameters will make different polishing effect. Orthogonal experiment can present the best polishing parameters more effectively and economically with fewer experiments in quantity. Polishing the MCT wafer with the optimized parameter and then exposed to XRD measurement. The XRD result showed that the damage have already been removed. The morphology of the surface after Ar+ ion etching affirm the XRD result.