2007A&A...462..257B


C.D.S. - SIMBAD4 rel 1.7 - 2019.10.19CEST07:43:47

2007A&A...462..257B - Astronomy and Astrophysics, volume 462, 257-268 (2007/1-4)

Simultaneous single-pulse observations of radio pulsars. V. On the broadband nature of the pulse nulling phenomenon in PSR B1133+16.

BHAT N.D.R., GUPTA Y., KRAMER M., KARASTERGIOU A., LYNE A.G. and JOHNSTON S.

Abstract (from CDS):

In this paper we revisit the well-known phenomenon of pulse nulling using high-quality single-pulse data of PSR B1133+16 from simultaneous multifrequency observations. Observations were made at 325, 610, 1400 and 4850 MHz as part of a joint program between the European Pulsar Network (EPN) and the Giant Metrewave Radio Telescope (GMRT). The pulse energy time series are analysed to derive improved statistics of nulling pulses as well as to investigate the frequency dependence of the phenomenon. The pulsar is observed to be in null state for approximately 15% of the time; however, we find that nulling does not always occur simultaneously at all four frequencies of observation. We characterise the statistics of such ``selective nulling'' as a function of frequency, separation in frequency, and combination of frequencies. The most remarkable case of such selective nulling seen in our data is a significantly large number of nulls (≃6%) at lower frequencies, that are marked by the presence of a fairly narrow emission feature at the highest frequency of 4850MHz. We refer to these as ``low frequency (LF) nulls''. We characterise the properties of high frequency (HF) emission at the occurrence of LF nulls, and compare and contrast them with that of ``normal emission'' at 4850MHz. Our analysis shows that this high frequency emission tends to occur preferentially over a narrow range in longitude and with pulse widths typically of the order of a few milliseconds. We discuss the implications of our results for the pulsar emission mechanism in general and for the broadbandness of nulling phenomenon in particular. Our results signify the presence of an additional process of emission which does not turn off when the pulsar nulls at low frequencies, and becomes more prominent at higher frequencies. Our analysis also hints at a possible outer gap origin for this new population of pulses, and thus a likely connection to some high-energy emission processes that occur in the outer parts of the pulsar magnetosphere.

Abstract Copyright:

Journal keyword(s): pulsars: general - pulsars: individual: PSR B1133+16 - ISM: general - radiation mechanism: non-thermal

Simbad objects: 10

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Number of rows : 10

N Identifier Otype ICRS (J2000)
RA
ICRS (J2000)
DEC
Mag U Mag B Mag V Mag R Mag I Sp type #ref
1850 - 2019
#notes
1 PSR B0031-07 Psr 00 34 08.86 -07 21 53.4           ~ 267 0
2 V* CM Tau Psr 05 34 31.93830 +22 00 52.1758           F 4710 1
3 M 1 SNR 05 34 31.94 +22 00 52.2           ~ 5486 4
4 ICRF J054236.1+495107 Sy1 05 42 36.13789843 +49 51 07.2337251   18.45 17.80 17.210   ~ 1231 1
5 PSR B0809+74 Psr 08 14 59.500 +74 29 05.70           ~ 355 0
6 PSR B0826-34 Psr 08 28 16.6 -34 17 07           ~ 130 0
7 PSR B1133+16 Psr 11 36 03.180 +15 51 09.62           ~ 593 0
8 3C 286 Sy1 13 31 08.2885060664 +30 30 32.960825108   17.51 17.25     ~ 3615 1
9 3C 295 Sy2 14 11 20.467 +52 12 09.52   22.34 20.80 18.54   ~ 879 5
10 PSR B1944+17 Psr 19 46 53.044 +18 05 41.24           ~ 208 0

    Equat.    Gal    SGal    Ecl

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2019.10.19-07:43:47

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