The first synthetic diamond, in 1954, was manufactured by GE Company with the high pressure and high temperature (HPHT) method, but the quality of synthetic diamond was not enough to be available for jewelery at that time, Since then, the synthetic diamond technology has gradually been developed and synthetic diamonds have been available for jewelry in the 1990s. Synthetic diamonds manufactured by CVD (Chemical Vapor Deposition) appeared in 2003 and showed to be commercialized in the market in 2012. In recent 10 years, synthetic diamond technology has been remarkable developed, and the development of synthetic diamond technology has enabled mass production of synthetic colorless diamonds which have a high quality. Colorless synthetic diamond has a characteristic fluorescence and phosphorescence. Natural diamond has a stronger fluorescence to long-wave UV than to short-wave UV. However, the fluorescence reaction of HPHT colorless synthetic diamonds show stronger to short-wave UV than to long-wave UV. HPHT and CVD colorless synthetic diamonds are mostly Type IIa, which contain trace amounts (<1 ppb) of boron or only carbon atoms, whereas most of the natural colorless diamonds are Type Ia containing trace amounts of nitrogen. However, if the synthetic diamond and natural diamond would be mixed during a distribution process in the diamond market, there will be happened a risk of confusion in the diamond market. In this paper, we propose three kind of detection method to cope with this problem in distribution process in the diamond market. First, check whether there is a cape line(N3) or not in the visible range. Second, Check detectable fluorescence to short-wave UV. Third, examine to show light blue phosphorescence. Combining the above three kind of detection method will be able to help to select synthetic diamonds and natural diamonds in the market.