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Дата изменения: Tue Nov 20 14:58:14 2012
Дата индексирования: Sun Feb 3 18:30:17 2013
Кодировка: IBM-866

Поисковые слова: quasar
Armagh Observatory

A Volume Limited Radio Survey of Ultracool Dwarfs

A. Antonova, G. Hallinan, J. G. Doyle, S. Yu, A. Kuznetsov, Y. Metodieva, A. Golden, and K. L. Cruz

Fig. 1. Radio luminosity - spectral type plot for all ultracool dwarfs observed at 4.9 GHz. Filled triangles show the upper limits on radio luminosities of the dwarfs from the present survey, open triangles mark upper limits from the literature and filled squares represent radio luminosities of detected dwarfs from the literature (Berger 2006; Burgasser & Putman 2005; Antonova et al. 2007, 2008; Route & Wolszczan 2012, and references therein).

Abstract

Aims. To increase the sample of ultracool dwarfs studied in the radio domain in order to allow a more statistically significant understanding of the physical conditions associated with such magnetically active objects.

Methods. We conducted a volume limited survey at 4.9 GHz of 32 nearby ultracool dwarfs with spectral types covering the range M7 тАУ T8. A statistical analysis was performed on the combined data from the present survey and previous radio observations of ultracool dwarfs.

Results. Whilst no radio emission was detected from any of the targets, significant upper limits were placed on the radio luminosities that are below the luminosities of previously detected ultracool dwarfs. Combining our results with those from the literature gives a detection rate for dwarfs in the spectral range M7 тАУ L3.5 of тИ® 9%. In comparison, only one dwarf later than L3.5 is detected in 53 observations. We give the observed detection rate as a function of spectral type, and the number distribution of the dwarfs as a function of spectral type and rotation velocity.

Conclusions. The radio observations so far point to a drop in the detection rate towards the ultracool dwarfs. However, the emission levels of detected ultracool dwarfs are comparable to these of earlier type active M dwarfs, which may imply that a mildly relativistic electron beam or a strong magnetic field can exist in ultracool dwarfs. Fast rotation may be a sufficient condition to produce magnetic fields with strength of hundreds Gauss to several kilo Gauss as suggested by the data for the active ultracool dwarfs with known rotation rates. A possible reason for the non-detection of radio emission from some dwarfs is that maybe the centrifugal acceleration mechanism in these dwarfs is weak (due to a low rotation rate) and thus cannot provide the necessary density and/or energy of accelerated electrons. An alternative explanation could be long term variability as is the case for several ultracool dwarfs whose radio emission varies considerably over long periods with emission levels dropping below the detection limit in some instances.

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Last Revised: 2012 November 20th