The effect of nitrogen addition on the properties of tetrahedral amorphous carbon ͑ta-C͒ has been studied. The ta-C is deposited by a filtered cathodic vacuum arc. The effect of introducing nitrogen on its plasma was measured by a retarding field analyzer and optical emission spectroscopy. The ta-C:N films were studied as a function of nitrogen content, ion energy, and deposition temperature. The incorporation of nitrogen was measured over the range of 10 Ϫ2-10 at. % by secondary ion mass spectrometry and elastic recoil detection analysis. The N content was found to vary slightly sublinearly with the N 2 partial pressure during deposition. A doping regime was found for N contents of up to 0.4 at. %, in which the conductivity changes while the sp 3 content and the optical band gap remain constant. For 0.4%-8% N, the sp 3 fraction remains above 80% but the optical gap closes due to a clustering of sp 2 sites. Only above about 10% N, the sp 3 fraction falls. The influence of nitrogen on the a-C was found to be independent of ion energies between 20 and 220 eV. Deposition above 200°C causes a sudden loss of sp 3 bonding. Raman and optical gap data show however that existing sp 2 sites begin to cluster below this temperature.