Page 62

Journal of Astrophysics & Aerospace Technology | ISSN: 2329-6542 | Volume 6

Planetary Science and Particle Physics

International Conference on

August 27-28, 2018 | Boston, USA

Large interstellar polarisation survey: On the importance of analysing single cloud sight-lines

Ralf Siebenmorgen

Germany

W

e study the variability of the dust characteristics from cloud-to-cloud in the diffuse ISM. We took low-resolution spectro-

polarimetric data obtained in the context of the Large Interstellar Polarisation Survey (LIPS, arXiv:1710.02439) towards 59

sight-lines in the southern hemisphere, andwe fitted these data using a dust model composed of silicate and carbon (arXiv:1705.07828).

Particles sizes range from the molecular to the sub-micrometer domain. Large (>6 nm) spheroidal dust that is of a prolate shape and

made of silicate account for the observed polarisation curve (arXiv:1308.3148). For 32 sight-lines we complemented our data set

with UVES archive high-resolution spectra, which enable us to establish the presence of single-cloud or multiple-clouds towards

individual sight-lines. We find that the majority of these 32 sight-lines intersect two or more dust clouds, while eight of them are

dominated by a single absorbing cloud. We confirm several correlations between extinction and polarisation characteristics and the

dust parameters, but we find also several previously undetected correlations between these parameters that are valid only in single-

cloud sight-lines (arXiv:1711.08672). We observe that interstellar polarisation from multiple-clouds is smaller than from single-

cloud sight-lines, showing that the presence of second or more clouds depolarises the incoming radiation. We find large variations

of the dust characteristics from cloud-to-cloud. However, when we average a number of clouds we always retrieve similar mean dust

parameters. Typical dust abundances of the single-cloud cases are [C]/[H] = 92 ppm and [Si]/[H] = 20 ppm. Further, we present

the status of our search of single-cloud sight-lines and discuss the impact of grain porosity on the extinction and the optical-to-

submillimeter polarisation.

Ralf.Siebenmorgen@eso.org

J Astrophys Aerospace Technol 2018, Volume 6

DOI: 10.4172/2329-6542-C2-021