Professor Rob Fender

Variable circular polarization associated with relativistic ejections from GRS 1915 + 105

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 336:1 (2002) 39-46

Authors:

RP Fender, D Rayner, DG McCormick, TWB Muxlow, GG Pooley, RJ Sault, RE Spencer

Large-Scale, Decelerating, Relativistic X-ray Jets from the Microquasar XTE J1550-654

(2002)

Authors:

S Corbel, RP Fender, AK Tzioumis, JA Tomsick, JA Orosz, JM Miller, R Wijnands, P Kaaret

Large-scale, decelerating, relativistic x-ray jets from the microquasar XTE J1550-564.

Science (New York, N.Y.) 298:5591 (2002) 196-199

Authors:

S Corbel, RP Fender, AK Tzioumis, JA Tomsick, JA Orosz, JM Miller, R Wijnands, P Kaaret

Abstract:

We have detected, at x-ray and radio wavelengths, large-scale moving jets from the microquasar XTE J1550-564. Plasma ejected from near the black hole traveled at relativistic velocities for at least 4 years. We present direct evidence for gradual deceleration in a relativistic jet. The broadband spectrum of the jets is consistent with synchrotron emission from high-energy (up to 10 tera-electron volts) particles that were accelerated in the shock waves formed within the relativistic ejecta or by the interaction of the jets with the interstellar medium. XTE J1550-564 offers a rare opportunity to study the dynamical evolution of relativistic jets on time scales inaccessible for active galactic nuclei jets, with implications for our understanding of relativistic jets from Galactic x-ray binaries and active galactic nuclei.

Iron Emission Lines from Extended X-ray Jets in SS 433: Reheating of Atomic Nuclei

(2002)

Authors:

Simone Migliari, Rob Fender, Mariano Mendez

Iron emission lines from extended x-ray jets in SS 433: reheating of atomic nuclei.

Science (New York, N.Y.) 297:5587 (2002) 1673-1676

Authors:

Simone Migliari, Rob Fender, Mariano Méndez

Abstract:

Powerful relativistic jets are among the most ubiquitous and energetic observational consequences of accretion around supermassive black holes in active galactic nuclei and neutron stars and stellar-mass black holes in x-ray binary (XRB) systems. But despite more than three decades of study, the structure and composition of these jets remain unknown. Here we present spatially resolved x-ray spectroscopy of arc second-scale x-ray jets from XRB SS 433 analyzed with the Chandra advanced charge-coupled device imaging spectrometer. These observations reveal evidence for a hot continuum and Doppler-shifted iron emission lines from spatially resolved regions. Apparently, in situ reheating of the baryonic component of the jets takes place in a flow that moves with relativistic bulk velocity even more than 100 days after launch from the binary core.