Based on both static (extended Köhler) and dynamic modelling, we investigate the influence of temperature,humidity, HNO3 initial concentration, as well as of the particle concentration, on the efficiency of HNO3-mediated laser- induced condensation. This mechanism is most efficient for low temperatures, high HNO3 concentration, and relative humidities. It is, however, still active up to 30 °C, down to 70% relative humidity, and below the ppm level of HNO3. Furthermore, lower particle concentration minimizing the depletion of both HNO3 and water vapor is more favourable to particle growth.
