2016ApJ...822...96G -
Astrophys. J., 822, 96-96 (2016/May-2)
PSR B0329+54: statistics of substructure discovered within the scattering disk on radioastron baselines of up to 235,000 km.
GWINN C.R., POPOV M.V., BARTEL N., ANDRIANOV A.S., JOHNSON M.D., JOSHI B.C., KARDASHEV N.S., KARUPPUSAMY R., KOVALEV Y.Y., KRAMER M., RUDNITSKII A.G., SAFUTDINOV E.R., SHISHOV V.I., SMIRNOVA T.V., SOGLASNOV V.A., STEINMASSL S.F., ZENSUS J.A. and ZHURAVLEV V.I.
Abstract (from CDS):
We discovered fine-scale structure within the scattering disk of PSR B0329+54 in observations with the RadioAstron ground-space radio interferometer. Here we describe this phenomenon, characterize it with averages and correlation functions, and interpret it as the result of decorrelation of the impulse-response function of interstellar scattering between the widely separated antennas. This instrument included the 10 m Space Radio Telescope, the 110 m Green Bank Telescope, the 14 x 25 m Westerbork Synthesis Radio Telescope, and the 64 m Kalyazin Radio Telescope. The observations were performed at 324 MHz on baselines of up to 235,000 km in 2012 November and 2014 January. In the delay domain, on long baselines the interferometric visibility consists of many discrete spikes within a limited range of delays. On short baselines it consists of a sharp spike surrounded by lower spikes. The average envelope of correlations of the visibility function shows two exponential scales, with characteristic delays of τ_{1}=4.1±0.3 µs and τ_{2}=23±3 µs , indicating the presence of two scales of scattering in the interstellar medium. These two scales are present in the pulse-broadening function. The longer scale contains 0.38 times the scattered power of the shorter one. We suggest that the longer tail arises from highly scattered paths, possibly from anisotropic scattering or from substructure at large angles.
Abstract Copyright:
© 2016. The American Astronomical Society. All rights reserved.
Journal keyword(s):
pulsars: individual: B0329+54 - radio continuum: ISM - scattering - techniques: high angular resolution
Simbad objects:
4
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