Short- and Long-Term Radio Variability of Young Stars in The Orion Nebula Cluster and Molecular Cloud

Author(s)
V. M. Rivilla, C. J. Chandler, J. Sanz Forcada, I. Jimenez-Serra, Jan Forbrich, J. Martin-Pintado
Abstract

We have used the Karl G. Jansky Very Large Array (VLA) to carry out multi-epoch radio continuum monitoring of the Orion Nebula Cluster (ONC) and the background Orion Molecular Cloud (OMC; 3 epochs at Q band and 11 epochs at Ka band). Our new observations reveal the presence of 19 radio sources, mainly concentrated in the Trapezium Cluster and the Orion Hot Core (OHC) regions. With the exception of the Becklin-Neugebauer object and source C (which we identify here as dust emission associated with a proplyd) the sources all show radio variability between the different epochs. We have found tentative evidence of variability in the emission from the massive object related to source I. Our observations also confirm radio flux density variations of a factor >2 on timescales of hours to days in five sources. One of these flaring sources, OHC-E, has been detected for the first time. We conclude that the radio emission can be attributed to two different components: (i) highly variable (flaring) non-thermal radio gyrosynchrotron emission produced by electrons accelerated in the magnetospheres of pre-main-sequence low-mass stars and (ii) thermal emission due to free-free radiation from ionized gas and/or heated dust around embedded massive objects and proplyds. Combining our sample with other radio monitoring at 8.3 GHz and the X-ray catalog provided by Chandra, we have studied the properties of the entire sample of radio/X-ray stars in the ONC/OMC region (51 sources). We have found several hints of a relation between the X-ray activity and the mechanisms responsible for (at least some fraction of) the radio emission. We have estimated a radio flaring rate of ~0.14 flares day-1 in the dense stellar cluster embedded in the OHC region. This suggests that radio flares are more common events during the first stages of stellar evolution than previously thought. The advent of improved sensitivity with the new VLA and ALMA will dramatically increase the number of stars in young clusters detected at radio wavelengths, which will help us improve our understanding of the origin and nature of the radio emission.

Organisation(s)
Department of Astrophysics
External organisation(s)
INAF - Osservatorio Astrofisico di Arcetri, Spanish National Research Council (CSIC), National Radio Astronomy Observatory Socorro, European Southern Observatory (Germany), University College London
Journal
The Astrophysical Journal
Volume
808
No. of pages
21
ISSN
0004-637X
DOI
https://doi.org/10.1088/0004-637X/808/2/146
Publication date
08-2015
Peer reviewed
Yes
Austrian Fields of Science 2012
103003 Astronomy, 103004 Astrophysics
Keywords
ASJC Scopus subject areas
Astronomy and Astrophysics, Space and Planetary Science
Portal url
https://ucrisportal.univie.ac.at/en/publications/short-and-longterm-radio-variability-of-young-stars-in-the-orion-nebula-cluster-and-molecular-cloud(79596d00-debe-4f2a-a438-59752a0cbd27).html