Cancer is the top cause of death is in Taiwan, and almost derived from epithelial tissue. Optical properties are affected during the carcinogenesis due to cell structure distinct change including nucleus enlargement and concentration. These parameters could be the strong tool to distinguish cancer and normal tissue/cells. An important parameter - refractive index, endogenous contrast source in the cell, has been successfully studied microstructure of cell without any enteral staining recently. Further, FDTD simulation provides light scattering information at different angle and wavelength of cell by refractive index distribution. Former study showed that refractive index of cancer cell is higher than normal cell, and the scattering coefficient of carcinoma is higher the normal tissue too. Here, we want to study that the difference of refractive index of single cell within cell cycle between cancer cells and normal cells. Results suggest that refractive index increases prominently for cancer cell while growing slowly for normal cell. Our finding shows that investigating refractive index of cell growing naturally without any external staining materials could give us more information of normal physiological phenomena in cancer cell. We also investigate white blood cells in human blood in order to distinguish three types of cell, monocytes, neutrophils and lymphocytes, by back-scattering spectrum analysis. Result indicates that neutrophils have the highest refractive index and dry mass. Monocytes are the largest cell with lowest refractive index while lymphocytes are smallest cell with higher refractive index than monocyte. Based on volume and diameter, we could distinguish monocyte and lymphocyte by oscillation of back-scattering spectrum. Using scattering value, neutrophils could be distinguished from the blood sample .Our finding suggest that back-scattering spectrum may help us distinguish white blood cells in vivo.