TY - JOUR A1 - Weigel, Ralf A1 - Hermann, Markus A1 - Curtius, Joachim A1 - Voigt, Christiane A1 - Walter, Saskia A1 - Böttger, Thomas A1 - Lepukhov, Boris A1 - Belyaev, Gennady A1 - Borrmann, Stephan T1 - Experimental characterization of the COndensation PArticle counting System for high altitude aircraft-borne application [Discussion paper] T2 - Atmospheric measurement techniques discussions N2 - his study aims at a detailed characterization of an ultra-fine aerosol particle counting system for operation on board the Russian high altitude research aircraft M-55 "Geophysica" (maximum ceiling of 21 km). The COndensation PArticle counting Systems (COPAS) consists of an aerosol inlet and two dual-channel continuous flow Condensation Particle Counters (CPCs). The aerosol inlet, adapted for COPAS measurements on board the M-55 "Geophysica", is described concerning aspiration, transmission, and transport losses. The counting efficiencies of the CPCs using the chlorofluorocarbon FC-43 as the working fluid are studied experimentally at two pressure conditions, 300 hPa and 70 hPa. Three COPAS channels are operated with different temperature differences between the saturator and the condenser block yielding smallest detectable particle sizes (dp50 – as 50% detection "cut off" diameters) of 6 nm, 11 nm, and 15 nm, respectively, at ambient pressure of 70 hPa. The fourth COPAS channel is operated with an aerosol heating line (250°C) for a determination of the non-volatile number of particles. The heating line is experimentally proven to volatilize pure H2SO4-H2O particles for a particle diameter (dp) range of 11 nm