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A&A 429, 1007-1023 (2005)
DOI: 10.1051/0004-6361:20041932
Rotation and variability of very low mass stars
and brown dwarfs near
Ori
A. Scholz and J. Eislöffel Thüringer Landessternwarte Tautenburg, Sternwarte 5, 07778 Tautenburg, Germany
e-mail: scholz@tls-tautenburg.de
(Received 31 August 2004 / Accepted 13 September 2004)
Abstract
We explore the rotation and activity of very low mass (VLM) objects
by means of a photometric variability study. Our targets in the vicinity of
Ori belong to the Ori OB1b population in the Orion star-forming complex.
In this region we selected 143 VLM stars and brown dwarfs (BDs), whose photometry in
RIJHK is consistent with membership of the young population. The variability of these
objects was investigated using a densely sampled
I-band time series covering four
consecutive nights with altogether 129 data points per object. Our targets show three
types of variability: Thirty objects, including nine BDs, show significant
photometric periods, ranging from 4 h up to 100 h, which we interpret as
the rotation periods. Five objects, including two BDs, exhibit variability with
high amplitudes up to 1 mag which is at least partly irregular. This behaviour
is most likely caused by ongoing accretion and confirms that VLM objects
undergo a T Tauri phase similar to solar-mass stars. Finally, one VLM star shows
a strong flare event of 0.3 mag amplitude. The rotation periods show dependence on
mass, i.e. the average period decreases with decreasing object mass,
consistent with previously found mass-period relationships in younger and older
clusters. The period distribution of BDs extends down to the breakup period,
where centrifugal and gravitational forces are balanced. Combining our BD periods
with literature data, we found that the lower period limit for substellar objects
lies between 2 h and 4 h, more or less independent of age. Contrary to stars, these
fast rotating BDs seem to evolve at constant rotation period from ages of 3 Myr
to 1 Gyr, in spite of the contraction process. Thus, they should experience strong
rotational braking.
Key words: techniques: photometric -- stars: low-mass, brown dwarfs -- stars: rotation -- Sun: activity -- stars: magnetic fields -- stars: flare
SIMBAD Objects
Tables at the CDS
© ESO 2005
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