Gamma-ray astronomy

Spectroscopy of broad-line blazars from 1LAC

Astrophysical Journal 748:1 (2012)

Authors:

MS Shaw, RW Romani, G Cotter, SE Healey, PF Michelson, ACS Readhead, JL Richards, W Max-Moerbeck, OG King, WJ Potter

Abstract:

We report on optical spectroscopy of 165 flat spectrum radio quasars (FSRQs) in the Fermi 1LAC sample, which have helped allow a nearly complete study of this population. Fermi FSRQs show significant evidence for non-thermal emission even in the optical; the degree depends on the γ-ray hardness. They also have smaller virial estimates of hole mass than the optical quasar sample. This appears to be largely due to a preferred (axial) view of the γ-ray FSRQ and non-isotropic (H/R ∼ 0.4) distribution of broad-line velocities. Even after correction for this bias, the Fermi FSRQs show higher mean Eddington ratios than the optical population. A comparison of optical spectral properties with Owens Valley Radio Observatory radio flare activity shows no strong correlation. © 2012 The American Astronomical Society. All rights reserved.

Assessing luminosity correlations via cluster analysis: Evidence for dual tracks in the radio/X-ray domain of black hole X-ray binaries

(2012)

Authors:

Elena Gallo, Brendan Miller, Rob Fender

Synchrotron and inverse-Compton emission from blazar jets I: a uniform conical jet model

(2012)

Authors:

William J Potter, Garret Cotter

Disc-jet coupling in the 2009 outburst of the black hole candidate H1743-322

Monthly Notices of the Royal Astronomical Society 421:1 (2012) 468-485

Authors:

JCA Miller-Jones, GR Sivakoff, D Altamirano, M Coriat, S Corbel, V Dhawan, HA Krimm, RA Remillard, MP Rupen, DM Russell, RP Fender, S Heinz, EG Körding, D Maitra, S Markoff, S Migliari, CL Sarazin, V Tudose

Abstract:

We present an intensive radio and X-ray monitoring campaign on the 2009 outburst of the Galactic black hole candidate X-ray binary H1743-322. With the high angular resolution of the Very Long Baseline Array, we resolve the jet ejection event and measure the proper motions of the jet ejecta relative to the position of the compact core jets detected at the beginning of the outburst. This allows us to accurately couple the moment when the jet ejection event occurred with X-ray spectral and timing signatures. We find that X-ray timing signatures are the best diagnostic of the jet ejection event in this outburst, which occurred as the X-ray variability began to decrease and the Type C quasi-periodic oscillations disappeared from the X-ray power density spectrum. However, this sequence of events does not appear to be replicated in all black hole X-ray binary outbursts, even within an individual source. In our observations of H1743-322, the ejection was contemporaneous with a quenching of the radio emission, prior to the start of the major radio flare. This contradicts previous assumptions that the onset of the radio flare marks the moment of ejection. The jet speed appears to vary between outbursts, with a possible positive correlation with outburst luminosity. The compact core radio jet reactivated on transition to the hard intermediate state at the end of the outburst, and not when the source reached the low hard spectral state. Comparison with the known near-infrared behaviour of the compact jets suggests a gradual evolution of the compact jet power over a few days near the beginning and end of an outburst. © 2012 The Authors Monthly Notices of the Royal Astronomical Society © 2012 RAS.

A weak compact jet in a soft state of Cygnus X-1

Monthly Notices of the Royal Astronomical Society 419:4 (2012) 3194-3199

Authors:

A Rushton, JCA Miller-Jones, R Campana, Y Evangelista, Z Paragi, TJ Maccarone, GG Pooley, V Tudose, RP Fender, RE Spencer, V Dhawan

Abstract:

We present evidence for the presence of a weak compact jet during a soft X-ray state of Cygnus X-1. Very-high-resolution radio observations were taken with the VLBA, EVN and MERLIN during a hard-to-soft spectral state change, showing the hard state jet to be suppressed by a factor of about 3-5 in radio flux and unresolved to direct imaging observations (i.e. ≲1 mas at 4cm). High time-resolution X-ray observations with the RXTE-PCA were also taken during the radio monitoring period, showing the source to make the transition from the hard state to a softer state (via an intermediate state), although the source may never have reached the canonical soft state. Using astrometric very long baseline interferometry (VLBI) analysis and removing proper motion, parallax and orbital motion signatures, the residual positions show a scatter of ∼0.2 mas (at 4cm) and ∼3 mas (at 13cm) along the position angle of the known jet axis; these residuals suggest that there is a weak unresolved outflow, with varying size or opacity, during intermediate and soft X-ray states. Furthermore, no evidence was found for extended knots or shocks forming within the jet during the state transition, suggesting that the change in outflow rate may not be sufficiently high to produce superluminal knots. © 2011 The Authors Monthly Notices of the Royal Astronomical Society © 2011 RAS.