Bibcode
Russell, David
Referencia bibliográfica
38th COSPAR Scientific Assembly. Held 18-15 July 2010, in Bremen, Germany, p.2
Fecha de publicación:
0
2010
Número de citas
0
Número de citas referidas
0
Descripción
For most black hole X-ray binaries, the fraction of X-ray flux
originating in the synchrotron jets is generally thought to be low in
the hard state. However in one intriguing case, using infrared -X-ray
correlations, evolution of broadband spectra and timing signatures we
show that synchrotron emission from a jet likely dominated both the
infrared and X-ray flux on the hard state decline of an outburst of XTE
J1550-564 at a luminosity of ˜ (2 × 10-4 -2 × 10-3 )
LEdd . Synchrotron emission from the relativistic jets launched close to
black holes can be highly linearly polarized, depending on the
configuration of the magnetic field. We show that the polarimetric
signature of their jets is detected in the infrared and is highly
variable. This reveals the magnetic geometry in the compact jet, in a
region close enough to the black hole that it is influenced by its
strong gravity. We also present the first ever test for a correlation
between optical polarization and X-ray flux of an X-ray binary, using
data taken simultaneously with sub-second time resolution. From these
results, we predict that in some cases, high (possibly up to 10%),
variable levels of X-ray polarization from synchrotron emission from the
jets will be detected from accreting black holes by future spaceborne
X-ray polarimeters.