Proper motion and apparent contraction in J0650+6001

Orienti, M.; Dallacasa, D.
Referencia bibliográfica

Monthly Notices of the Royal Astronomical Society, Volume 406, Issue 1, pp. 529-534.

Fecha de publicación:
7
2010
Número de autores
2
Número de autores del IAC
1
Número de citas
9
Número de citas referidas
8
Descripción
We present a multi-epoch and multifrequency very long baseline interferometry (VLBI) study of the compact radio source J0650+6001. In VLBI images, the source is resolved into three components. The central component shows a flat spectrum, suggesting the presence of the core, while the two outer regions, with a steeper spectral index, display a highly asymmetric flux density. The time baseline of the observations considered to derive the source expansion covers about 15yr. During this time interval, the distance between the two outer components has increased by 0.28 +/- 0.13mas, that corresponds to an apparent separation velocity of 0.39c +/- 0.18c and a kinematic age of 360 +/- 170yr. On the other hand, a multi-epoch monitoring of the separation between the central and the southern components points out an apparent contraction of about 0.29 +/- 0.02 mas, corresponding to an apparent contraction velocity of 0.37c +/- 0.02c. Assuming that the radio structure is intrinsically symmetric, the high flux density ratio between the outer components can be explained in terms of Doppler beaming effects where the mildly relativistic jets are separating with an intrinsic velocity of 0.43c +/- 0.04c at an angle between 12° and 28° to the line of sight. In this context, the apparent contraction may be interpreted as a knot in the jet that is moving towards the southern component with an intrinsic velocity of 0.66c +/- 0.03c, and its flux density is boosted by a Doppler factor of 2.0.
Proyectos relacionados
Project Image
Centros de Galaxias a Escalas de Parsecs y Técnicas de Alta Resolución Espacial
Proyecto enfocado al estudio en el IR del núcleo de las galaxias más cercanas con resoluciones espaciales en el rango de 1 a 10 pc. Estas resoluciones espaciales, accesibles con los grandes telescopios de tierra usando técnicas frontera de observación, son por primera vez comparables a las que se obtienen rutinariamente con HST en el óptico y VLBI
Almudena
Prieto Escudero