Influence of glass dielectric property (dielectric constant K, dielectric loss) on the external electrode fluorescent lamps of the dielectric barrier discharge has been investigated with 4-different glasses. Conventional borosilicate glass tubes with $K=5.6{sim}5.9$ and tan ${delta}=5.0{ imes}10^{-3}{sim}6.0{ imes}10^{-3}$ and aluminosilicate glass tubes with high K=6.6 and low tan ${delta}=1{ imes}10^{-4}$ and soda-lime glass tribes with K=7.7 and tan ${delta}=1.37{ imes}10^{-2}$ have been compared. The high value of dielectric constant K makes the capacitance of external electrode fluorescent lamps intensity and enhances the discharge efficiency. The dielectric loss of tan ${delta}$ shows the factor of power consumption in the external electrode to induce heats and to be weak in pinhole stability. The aluminosilicate glass tubes of high K and low tan ${delta}$ have been enhanced by $14{sim}18%$ in luminance and efficiency in comparison with the conventional borosilicate glass tubes and the aluminosilicate external electrode fluorescent lamps are strong against the pinhole formation. Soda-lime glass tubes with high K and high tan ${delta}$ are a little favorable in luminance and efficiency and they are very weak in pinhole occurrence.