Browse > Article
http://dx.doi.org/10.5303/PKAS.2015.30.2.113

NUMERICAL SIMULATIONS OF HH 211: A REFLECTION-SYMMETRIC BIPOLAR OUTFLOW  

MORAGHAN, ANTHONY (Academia Sinica Institute of Astronomy and Astrophysics)
LEE, CHIN-FEI (Academia Sinica Institute of Astronomy and Astrophysics)
HUANG, PO-SHENG (Academia Sinica Institute of Astronomy and Astrophysics)
VAIDYA, BHARGAV (Department of Physics, University of Torino)
Publication Information
Publications of The Korean Astronomical Society / v.30, no.2, 2015 , pp. 113-114 More about this Journal
Abstract
Recent high-resolution, high-sensitivity observations of protostellar jets have shown many to possess an underlying 'wiggle' structure. HH 211 is one such example where recent sub-mm observations revealed a clear reflection-symmetric wiggle. An explanation for this is that the HH211 jet source is moving as part of a protobinary system. Here we test this assumption by simulating HH211 through 3D hydrodynamic simulations using the pluto code with a molecular chemistry and cooling module, and initial conditions based on an analytical model derived from SMA observations. Molecular chemistry allows us to accurately plot synthetic molecular emission maps and position-velocity diagrams for direct comparison to observations, enabling us to test the observational assumptions and put constraints on the physical parameters of HH211. Our preliminary results show that the reflection-symmetric wiggle can be recreated through the assumption of a jet source being part of a binary system.
Keywords
hydrodynamics; molecular processes; ISM: Herbig-Haro Objects; ISM: jets and outflows;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Lee, C. -F., Hasegawa, T. I., Hirano, N., Palau, A., Shang, H., Ho, P. T. P., & Zhang, Q., 2010, The Reflection-Symmetric Wiggle of the Young Protostellar Jet HH 211, APJ, 713, 731   DOI
2 Lee, C. -F., Hirano, N., Palau, A., Ho, P. T. P., Bourke, T. L., Zhang, Q., & Shang, H., 2009, Rotation and Outflow Motions in the Very Low-Mass Class 0 Protostellar System HH 211 at Subarcsecond Resolution, APJ, 699, 1584   DOI
3 Mignone, A., Bodo, G., Massaglia, S., Matsakos, T., Tesileanu, O., Zanni, C., & Ferrari, A., 2007, PLUTO: A Numerical Code for Computational Astrophysics, APJS, 170, 228   DOI
4 Moraghan A., Lee, C. -F., Huang, P. -S., & Vaidya, B., 2015, A Study of the Reflection-Symmetric Bipolar Jets of HH 211 via Hydrodynamical Simulations, (in preparation)
5 Reipurth, B., Heathcote, S., Morse, J., Hartigan, P., & Bally, J., 2002, Hubble Space Telescope Images of the HH 34 Jet and Bow Shock: Structure and Proper Motions, AJ, 123, 362   DOI   ScienceOn
6 Smith, M. D. & Rosen, A., 2003, The Instability of Fast Shocks in Molecular Clouds, MNRAS, 339, 133   DOI
7 Tanner, J. D. & Arce, H. G., 2011, The Dynamics of the Envelope Surrounding the Protostar HH 211 mm, APJ, 726, 40   DOI