Bernard J. Mason, Simon-John King, Rachael E.H. Miles, Katherine M Manfred, Andrew M.J. Rickards, Jin Kim, Jonathan Philip Reid, and Andrew Orr-Ewing
The ability of two techniques, aerosol cavity ring down spectroscopy (A-CRDS) and optical tweezers, to retrieve the refractive index of atmospherically relevant aerosol was compared through analysis of supersaturated sodium nitrate at a range of relative humidities. Accumulation mode particles in the diameter range 300 to 600 nm were probed using A-CRDS, with optical tweezers measurements performed on coarse mode particles several microns in diameter. A correction for doubly charged particles was applied in the A-CRDS measurements. Both techniques were found to retrieve refractive indices in good agreement with previously published results from Tang and Munkelwitz, with a precision of ± 0.0012 for the optical tweezers and ± 0.02 for the A-CRDS technique. The coarse mode optical tweezers measurements agreed most closely with refractive index predictions made using a mass-weighted linear mixing rule. The uncertainty in the refractive index retrieved by the A-CRDS technique prevented discrimination between predictions using both mass-weighted and volume-weighted linear mixing rules. No efflorescence or kinetic limitations on water transport between the particle and the gas phase were observed at relative humidities down to 14 %. The magnitude of the uncertainty in refractive index retrieved using the A-CRDS technique reflects the challenges in determining particle optical properties in the accumulation mode, where the extinction efficiency varies steeply with particle size.
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