P34B-02
Spectro-polarimetry of Ice-dust Mixtures measured in the Laboratory with Application to the Solar System and Beyond

Wednesday, 16 December 2015: 16:20
2007 (Moscone West)
Olivier Poch1, Hans Martin Schmid2, Antoine Pommerol3, Bernhard Jost3, Yann Brouet4 and Nicolas Thomas3, (1)University of Bern, NCCR PlanetS, Bern, Switzerland, (2)ETH Zurich, Zurich, Switzerland, (3)University of Bern, Bern, Switzerland, (4)University of Bern, Physics Institute, Bern, Switzerland
Abstract:
Polarimetric observations of atmosphere-less Solar System bodies can give clues on the texture and on the physico-chemical composition of their surfaces, as reviewed by Mishchenko et al. (2010) and Bagnulo et al. (2011). Measurements performed in the laboratory on carefully characterized samples can provide reference data that can be used for direct comparison with remote-sensing polarimetric observations. In particular, we want to study the spectral dependence of the polarization and the way it is correlated or not with the surface albedo.

In the Laboratory for Outflow Studies of Sublimating Materials (LOSSy) at the University of Bern, we have developed the capability to prepare and analyze optically thick analogues of planetary or cometary surfaces composed of water ice, minerals and carbonaceous compounds. Water-free dust of high porosity can also be produced by sublimation of ice under space-simulated conditions (Pommerol et al., 2015). Here, we present the first results of polarization measurements performed in the LOSSy. A Stokes polarimeter is used to measure the Stokes parameters describing the polarization of the visible light scattered by icy samples illuminated with a randomly polarized light simulating the star light. Additionally, a radio-goniometer, equipped with polarizers, can also measure the phase angle dependence of the linearly polarized scattered light. These measurements could provide interesting inputs to complement the theoretical models and predict or interpret spectro-polarimetric properties of Solar System objects and circumstellar disks.

Mishchenko, M., et al., 2010, Polarimetric Remote Sensing of Solar System Objects.

Bagnulo, S., et al., 2011, J. Quant. Spectrosc. Ra. 112, 2059.

Pommerol, A., et al., 2015, Planet. Space Sci. 109-110, 106-122.