The Statistics of Radio Astronomical Polarimetry: Disjoint, Superposed, and Composite Samples

van Straten W, Tiburzi C (2017)
ASTROPHYSICAL JOURNAL 835(2): 293.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
Download
Es wurden keine Dateien hochgeladen. Nur Publikationsnachweis!
Autor*in
van Straten, W.; Tiburzi, CaterinaUniBi
Abstract / Bemerkung
A statistical framework is presented for the study of the orthogonally polarized modes of radio pulsar emission via the covariances between the Stokes parameters. To accommodate the typically heavy-tailed distributions of singlepulse radio flux density, the fourth-order joint cumulants of the electric field are used to describe the superposition of modes with arbitrary probability distributions. The framework is used to consider the distinction between superposed and disjoint modes, with particular attention to the effects of integration over finite samples. If the interval over which the polarization state is estimated is longer than the timescale for switching between two or more disjoint modes of emission, then the modes are unresolved by the instrument. The resulting composite sample mean exhibits properties that have been attributed to mode superposition, such as depolarization. Because the distinction between disjoint modes and a composite sample of unresolved disjoint modes depends on the temporal resolution of the observing instrumentation, the arguments in favor of superposed modes of pulsar emission are revisited, and observational evidence for disjoint modes is described. In principle, the four-dimensional covariance matrix that describes the distribution of sample mean Stokes parameters can be used to distinguish between disjoint modes, superposed modes, and a composite sample of unresolved disjoint modes. More comprehensive and conclusive interpretation of the covariance matrix requires more detailed consideration of various relevant phenomena, including temporally correlated subpulse modulation (e.g., jitter), statistical dependence between modes (e.g., covariant intensities and partial coherence), and multipath propagation effects (e.g., scintillation and scattering).
Stichworte
methods: data analysis; methods: statistical; polarization; pulsars:; general; techniques: polarimetric
Erscheinungsjahr
2017
Zeitschriftentitel
ASTROPHYSICAL JOURNAL
Band
835
Ausgabe
2
Art.-Nr.
293
ISSN
0004-637X
eISSN
1538-4357
Page URI
https://pub.uni-bielefeld.de/record/2912011

Zitieren

van Straten W, Tiburzi C. The Statistics of Radio Astronomical Polarimetry: Disjoint, Superposed, and Composite Samples. ASTROPHYSICAL JOURNAL. 2017;835(2): 293.
van Straten, W., & Tiburzi, C. (2017). The Statistics of Radio Astronomical Polarimetry: Disjoint, Superposed, and Composite Samples. ASTROPHYSICAL JOURNAL, 835(2), 293. doi:10.3847/1538-4357/835/2/293
van Straten, W., and Tiburzi, Caterina. 2017. “The Statistics of Radio Astronomical Polarimetry: Disjoint, Superposed, and Composite Samples”. ASTROPHYSICAL JOURNAL 835 (2): 293.
van Straten, W., and Tiburzi, C. (2017). The Statistics of Radio Astronomical Polarimetry: Disjoint, Superposed, and Composite Samples. ASTROPHYSICAL JOURNAL 835:293.
van Straten, W., & Tiburzi, C., 2017. The Statistics of Radio Astronomical Polarimetry: Disjoint, Superposed, and Composite Samples. ASTROPHYSICAL JOURNAL, 835(2): 293.
W. van Straten and C. Tiburzi, “The Statistics of Radio Astronomical Polarimetry: Disjoint, Superposed, and Composite Samples”, ASTROPHYSICAL JOURNAL, vol. 835, 2017, : 293.
van Straten, W., Tiburzi, C.: The Statistics of Radio Astronomical Polarimetry: Disjoint, Superposed, and Composite Samples. ASTROPHYSICAL JOURNAL. 835, : 293 (2017).
van Straten, W., and Tiburzi, Caterina. “The Statistics of Radio Astronomical Polarimetry: Disjoint, Superposed, and Composite Samples”. ASTROPHYSICAL JOURNAL 835.2 (2017): 293.
Export

Markieren/ Markierung löschen
Markierte Publikationen

Open Data PUB

Web of Science

Dieser Datensatz im Web of Science®
Suchen in

Google Scholar