Soft X-ray emission spectroscopy (SXES) technique combined with an electron probe micro analyzer is used to study the oxygen concentrations of the α-Ti and γ-TiAl phases in equilibrium with each other in the Ti-Al-O ternary system. A series of alloys with various oxygen concentrations were prepared for standard and quantitative analysis. In order to optimize the analysis condition, the oxygen-Kα peak intensities were measured under various probe currents, acceleration voltages, and dwell times for homogenized α single-phase samples with known oxygen concentrations after removing the oxygen-enriched layer on the surface by Ar sputtering. The calibration curve obtained under the optimized conditions shows excellent sensitivity to dissolved oxygen concentration as well as high linearity and an accuracy of better than 0.01 wt%. The combination of oxygen analysis using SXES and metal element analysis by wavelength dispersive spectroscopy revealed that the oxygen is enriched in the α phase and the Al concentration of the α phase in equilibrium with the γ phase decreases. In the meantime, the γ phase can dissolve only about 0.2 at% oxygen, and the α + γ/γ phase boundary moves significantly toward higher Al concentration with increasing oxygen in the alloy. These results suggest that interstitial oxygen prefers the Ti-O bonds in close-packed structures and can hardly have the Al-O bonds. • A quantitative analysis method for oxygen in solution using soft X-ray emission spectroscopy was established. • Partial isothermal section of the Ti-Al-O phase diagram at 1473 K was proposed. • The maximum oxygen solubility in the γ phase was determined as about 0.2 at% at 1473 K.