Gamma-ray astronomy

Steady jets from radiatively efficient hard states in GRS1915+105

Astronomy and Astrophysics 524:5 (2010)

Authors:

A Rushton, R Spencer, R Fender, G Pooley

Abstract:

Recent studies of different X-ray binaries (XRBs) have shown a clear correlation between the radio and X-ray emission. We present evidence of a close relationship found between the radio and X-ray emission at different epochs for GRS 1915+105, using observations from the Ryle Telescope and Rossi X-ray Timing Explorer satellite. The strongest correlation was found during the hard state (also known as the "plateau" state), where a steady AU-scale jet is known to exist. Both the radio and X-ray emission were found to decay from the start of most plateau states, with the radio emission decaying faster. An empirical relationship of was then fitted to data taken only during the plateau state, resulting in a power-law index of ξ ~ 1.7 ± 0.3, which is significantly higher than in other black hole XRBs in a similar state. An advection-flow model was then fitted to this relationship and compared to the universal XRB relationship as described by Gallo et al. (2003, MNRAS, 344, 60). We conclude that either (I) the accretion disk in this source is radiatively efficient, even during the continuous outflow of a compact jet, which could also suggest a universal turn-over from radiatively inefficient to efficient for all stellar-mass black holes at a critical mass accretion rate (M c≈1018.5 g/s); or (II) the X-rays in the plateau state are dominated by emission from the base of the jet and not the accretion disk (e.g. via inverse Compton scattering from the outflow). © 2010 ESO.

The Balmer-dominated bow shock and wind nebula structure of γ-ray pulsar PSR J1741-2054

Astrophysical Journal 724:2 (2010) 908-914

Authors:

RW Romani, MS Shaw, F Camilo, G Cotter, GR Sivakoff

Abstract:

We have detected an Hα bow shock nebula around PSR J1741-2054, a pulsar discovered through its GeV γ-ray pulsations. The pulsar is only ∼1'.5 behind the leading edge of the shock. Optical spectroscopy shows that the nebula is non-radiative, dominated by Balmer emission. The Hα images and spectra suggest that the pulsar wind momentum is equatorially concentrated and implies a pulsar space velocity ≈150kms-1, directed 15° ± 10° out of the plane of the sky. The complex Hα profile indicates that different portions of the post-shock flow dominate line emission as gas moves along the nebula and provide an opportunity to study the structure of this unusual slow non-radiative shock under a variety of conditions. CXO ACIS observations reveal an X-ray pulsar wind nebula within this nebula, with a compact ∼2.5 equatorial structure and a trail extending several arcminutes behind. Together these data support a close (≤0.5 kpc) distance, a spin geometry viewed edge-on, and highly efficient γ-ray production for this unusual, energetic pulsar. © 2010. The American Astronomical Society. All rights reserved. Printed in the U.S.A.

On the nature of the "radio quiet" black hole binaries

(2010)

Authors:

Paolo Soleri, Rob Fender

Blazars in the Fermi Era: The OVRO 40-m Telescope Monitoring Program

(2010)

Authors:

Joseph L Richards, Walter Max-Moerbeck, Vasiliki Pavlidou, Oliver G King, Timothy J Pearson, Anthony CS Readhead, Rodrigo Reeves, Martin C Shepherd, Matthew A Stevenson, Lawrence C Weintraub, Lars Fuhrmann, Emmanouil Angelakis, J Anton Zensus, Stephen E Healey, Roger W Romani, Michael S Shaw, Keith Grainge, Mark Birkinshaw, Katy Lancaster, Diana M Worrall, Gregory B Taylor, Garret Cotter, Ricardo Bustos

A decelerating jet observed by the EVN and VLB A in the X-ray transient XTE J1752-223

Monthly Notices of the Royal Astronomical Society: Letters 409:1 (2010)

Authors:

J Yang, C Brocksopp, S Corbel, Z Paragi, T Tzioumis, RP Fender

Abstract:

The recently discovered Galactic X-ray transient XTE J1752-223 entered its first known outburst in 2010, emitting from the X-ray to the radio regimes. Its general X-ray properties were consistent with those of a black hole candidate in various spectral states, when ejection of jet components is expected. To verify this, we carried out very long baseline interferometry (VLBI) observations. The measurements were carried out with the European VLBI Network (EVN) and the Very Long Baseline Array (VLBA) at four epochs in 2010 February. The images at the first three epochs show a moving jet component that is significantly decelerated by the last epoch, when a new jet component appears that is likely to be associated with the receding jet side. The overall picture is consistent with an initially mildly relativistic jet, interacting with the interstellar medium or with swept-up material along the jet. The brightening of the receding ejecta at the final epoch can be well explained by initial Doppler deboosting of the emission in the decelerating jet. © 2010 The Authors. Journal compilation © 2010 RAS.