SETIBURST: A robotic, commensal, realtime multi-science backend for the Arecibo Telescope
Astrophysical Journal Supplement Series Institute of Physics 228:2 (2017) 21-21
Abstract:
Radio astronomy has traditionally depended on observatories allocating time to observers for exclusive use of their telescopes. The disadvantage of this scheme is that the data thus collected is rarely used for other astronomy applications, and in many cases, is unsuitable. For example, properly calibrated pulsar search data can, with some reduction, be used for spectral line surveys. A backend that supports plugging in multiple applications to a telescope to perform commensal data analysis will vastly increase the science throughput of the facility. In this paper, we present "SETIBURST," a robotic, commensal, realtime multi-science backend for the 305 m Arecibo Telescope. The system uses the 1.4 GHz, seven-beam Arecibo L-band Feed Array (ALFA) receiver whenever it is operated. SETIBURST currently supports two applications: SERENDIP VI, a SETI spectrometer that is conducting a search for signs of technological life, and ALFABURST, a fast transient search system that is conducting a survey of fast radio bursts (FRBs). Based on the FRB event rate and the expected usage of ALFA, we expect 0-5 FRB detections over the coming year. SETIBURST also provides the option of plugging in more applications. We outline the motivation for our instrumentation scheme and the scientific motivation of the two surveys, along with their descriptions and related discussions.Rapid and Bright Stellar-mass Binary Black Hole Mergers in Active Galactic Nuclei
ASTROPHYSICAL JOURNAL American Astronomical Society 835:2 (2017) ARTN 165
Abstract:
© 2017. The American Astronomical Society. All rights reserved. The Laser Interferometer Gravitational-wave Observatory (LIGO) found direct evidence for double black hole binaries emitting gravitational waves. Galactic nuclei are expected to harbor the densest population of stellar-mass black holes. A significant fraction (∼30%) of these black holes can reside in binaries. We examine the fate of the black hole binaries in active galactic nuclei, which get trapped in the inner region of the accretion disk around the central supermassive black hole. We show that binary black holes can migrate into and then rapidly merge within the disk well within a Salpeter time. The binaries may also accrete a significant amount of gas from the disk, well above the Eddington rate. This could lead to detectable X-ray or gamma-ray emission, but would require hyper- Eddington accretion with a few percent radiative efficiency, comparable to thin disks. We discuss implications for gravitational-wave observations and black hole population studies. We estimate that Advanced LIGO may detect ∼20 such gas-induced binary mergers per year.Inclination dependence of QPO phase lags in black hole X-ray binaries
Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 464:3 (2017) 2643-2659
Tomographic reflection modelling of quasi-periodic oscillations in the black hole binary H 1743−322
Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 464:3 (2017) 2979-2991
GEMINGA’S PUZZLING PULSAR WIND NEBULA
The Astrophysical Journal American Astronomical Society 835:1 (2017) 66