Corning archeological reference glasses A, B, C, and D have been made to simulate different historic technologies of glass production and are used as standards in historic glass investigations. In this work, nanoseconds (193, 266 nm) and femtosecond (800 nm) laser ablation were used to study the elemental composition of Corning glasses using laser ablation inductively coupled plasma mass spectrometry. The determined concentrations of 26 oxides (Li(2)O, B(2)O(3), Na(2)O, MgO, Al(2)O(3), SiO(2), P(2)O(5), K(2)O, CaO, TiO(2), V(2)O(5), Cr(2)O(3), MnO, Fe(2)O(3), CoO, NiO, CuO, ZnO, Rb(2)O, SrO, ZrO(2), SnO(2), Sb(2)O(5), BaO, PbO, Bi(2)O(3)) are compared with values reported in the literature. Results show variable discrepancies between the data, with the largest differences found for Cr(2)O(3) in Corning A; Li(2)O, B(2)O(3), and Cr(2)O(3) in Corning B; and MnO, Sb(2)O(5), Cr(2)O(3), and Bi(2)O(3) in Corning C. The best agreement between the measured and literature values was found for Corning D. However, even for this reference, glass re-evaluation of the data was necessary and new values for PbO, BaO, and Bi(2)O(3) are proposed.