This paper describes an experimental investigation of the density field of coaxial jets with large density differences. These flows are characterised by a low velocity–high density inner jet surrounded by a high velocity–low density annular jet. The density field was determined by a thermo-anemometric method based on a new version of an aspirating probe. Measurements show that mixing is directly dependent upon the flow dynamics in the near-field region. As a result, density effects on mixing as well as on the flow dynamics are rather well taken into account by considering the specific outer to inner jet momentum flux ratio M and not separately the density and the velocity ratios. For a given value of M, however, a slight enhancement of mixing is found for density ratios much smaller than one (≈0.14).