Home ContactSitemap CAS中文
About Us
Brief Introduction
History
Directors
Organization
Research Groups
Scientific Progress
Seminars
Colloquia
CAS Members
Experts
Faculty
Research Fields
Center for Astro-geodynamics
Astrophysics Division
DRAST (Division of Radio Astronomy Science and Technology )
High Technology Laboratories

Location: Home>Research>Seminars
GW Ori: a unique target for studying protoplanetary disk evolution
Author:
ArticleSource:
Update time: 2015-04-20
Close
Text Size: A A A
Print

Title : GW Ori: a unique target for studying protoplanetary disk evolution

Speaker: Min Fang (房敏) University of Arizona, Autonomous University of Madrid, Purple Mountain Observatory

Time: April 21st, 2015, 14:00

Location: Middle conference room, 3rd floor

Abstract : 

Disks are expected to dissipate quickly in binary or multiple systems. Investigating such systems can improve our knowledge of the disk dispersal. The triple pre-main sequence stellar system GW Ori, still harboring a massive disk, is an excellent target. I have studied GW Ori using a large set of multi-wavelength photometric and spectral data ranged from optical bands to millimeter wavelengths. I will talk about its wind and accretion activity. The wind is found to be launched near the orbit of the second companion, and can be modulated by its orbit motion. I will compare the accretion activity of GW Ori with the predictions from the simulations of Artymowicz & Lubow (1996), and show how our results contradict with their simulations. I will present the results on study the variations in the SED of GW Ori which exhibits dramatic changes on timescales of ?20 yr in the near-infrared bands, implying a major readjustment of the inner disk on short timescales. In this talk, I will also present the first spatially-resolved millimeter interferometric observations of the disk around GW~Ori, obtained with the the Submillimeter Array (SMA), both in continuum and in the 12CO (J=2-1), 13CO (J=2-1), and C18O (J=2-1) lines. I will present the results on the disk of GW Ori by the simultaneous modelling of its SED and SMA data in continuum and gas line emission.

Shanghai Astronomical Observatory, All Rights Reserved
80 Nandan Road, Shanghai 200030, China
Tel: +86-21-64386191 Email:shao@shao.ac.cn