The adsorption, thermal desorption and surface diffusion of titanium on tungsten in ultra-high vacuum have been studied by field emission microscopy. The work function versus coverage curve has a minimum of 3.95 eV. The theory of metallic adsorbate-induced work function changes given by Gyftopoulos and Levine gives results which are in good agreement with our experimental values. In some experiments the work function minimum occurs at 3.65 eV. This value corresponds to the value of the work function of β-titanium. It is believed that α-titanium to β-titanium phase transformation occurs when the emitter tip is annelaed at 1100 °K to sperad the titanium uniformly over its surface. Surface diffusion of titanium on tungsten occurs with a sharp boundary at 800 °K and the activation energies for the (211)→(411) directions are 43.0 and 42.3 kcal mole respectively. The activation energy of thermal desorption was dependent on the coverage and ranges from 115.3 to 160.4 kcal mole . A satisfactory qualitative correlation between the theory and experiment is established.