Letter to the Editor

Water transport through mesoporous amorphous-carbon dust

Laboratory Astrophysics Group of the Max Planck Institute for Astronomy at the Friedrich Schiller University Jena, Institute of Solid State Physics, Jena, Germany
e-mail: romain.basalgete@uni-jena.de

Received: 10 November 2023
Accepted: 21 December 2023

Abstract

The diffusion of water molecules through mesoporous dust of amorphous carbon (a-C) is a key process in the evolution of prestellar, protostellar, and protoplanetary dust, as well as in that of comets. It also plays a role in the formation of planets. Given the absence of data on this process, we experimentally studied the isothermal diffusion of water molecules desorbing from water ice buried at the bottom of a mesoporous layer of aggregated a-C nanoparticles, a material analogous to protostellar and cometary dust. We used infrared spectroscopy to monitor diffusion in low temperature (160 to 170 K) and pressure (6 × 10⁻⁵ to 8 × 10⁻⁴ Pa) conditions. Fick’s first law of diffusion allowed us to derive diffusivity values on the order of 10⁻² cm² s⁻¹, which we linked to Knudsen diffusion. Water vapor molecular fluxes ranged from 5 × 10¹² to 3 × 10¹⁴ cm⁻² s⁻¹ for thicknesses of the ice-free porous layer ranging from 60 to 1900 nm. Assimilating the layers of nanoparticles to assemblies of spheres, we attributed to this cosmic dust analog of porosity 0.80−0.90 a geometry correction factor, similar to the tortuosity factor of tubular pore systems, between 0.94 and 2.85. Applying the method to ices and refractory particles of other compositions will provides us with other useful data.