Krzysztof Krzeszowski
University of Zielona Góra
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Featured researches published by Krzysztof Krzeszowski.
Astronomy and Astrophysics | 2007
J. Kijak; Yashwant Gupta; Krzysztof Krzeszowski
Aims. The main aim is to investigate the possibility of a high frequency turn-over in the radio spectrum of pulsars. Methods. Using the GMRT, multi-frequency flux density measurements of several candidate pulsars have been carried out and their spectra have been extended to lower frequencies. Results. We present the first direct evidence for turn-over in pulsar radio spectra at high frequencies. A total of 3 pulsars (including 2 new ones from this study) are now shown to have a turn-over frequency ≥1 GHz, and one is shown to have a turn-over at ∼600 MHz.
Monthly Notices of the Royal Astronomical Society | 2009
Krzysztof Krzeszowski; Dipanjan Mitra; Yashwant Gupta; J. Kijak; Janusz Gil; A. Acharyya
The magnetospheric locations of pulsar radio emission region are not well known. The actual form of the so-called radius-to-frequency mapping should be reflected in the aberration-retardation (A/R) effects that shift and/or delay the photons depending on the emission height in the magnetosphere. Recent studies suggest that in a handful of pulsars the A/R effect can be discerned with respect to the peak of the central core emission region. To verify these effects in an ensemble of pulsars, we launched a project analysing multifrequency total intensity pulsar profiles obtained from the new observations from the Giant Meterwave Radio Telescope (GMRT), Arecibo Observatory (AO) and archival European Pulsar Network (EPN) data. For all these profiles, we measure the shift of the outer cone components with respect to the core component, which is necessary for establishing the A/R effect. Within our sample of 23 pulsars, seven show the A/R effects, 12 of them (doubtful cases) show a tendency towards this effect, while the remaining four are obvious counterexamples. The counterexamples and doubtful cases may arise from uncertainties in the determination of the location of the meridional plane and/or the core emission component. Hence, it appears that the A/R effects are likely to operate in most pulsars from our sample. We conclude that in cases where those effects are present the core emission has to originate below the conal emission region.
Monthly Notices of the Royal Astronomical Society | 2015
Agnieszka Slowikowska; D. Dimitrov; Krzysztof Krzeszowski; Michał Żejmo; G. Kanbach; Vadim Burwitz; P. Irawati; Andrea Richichi; M. Gawroński; G. Nowak; I. Nasiroglu; D. Kubicki
We study the mid-egress eclipse timing data gathered for the cataclysmic binary HU Aquarii during the years 1993-2014. The (O-C) residuals were previously attributed to a single ~7 Jupiter mass companion in ~5 au orbit or to a stable 2-planet system with an unconstrained outermost orbit. We present 22 new observations gathered between June, 2011 and July, 2014 with four instruments around the world. They reveal a systematic deviation of ~60 - 120 seconds from the older ephemeris. We re-analyse the whole set of the timing data available. Our results provide an erratum to the previous HU Aqr planetary models, indicating that the hypothesis for a third and fourth body in this system is uncertain. The dynamical stability criterion and a particular geometry of orbits rule out coplanar 2-planet configurations. A putative HU Aqr planetary system may be more complex, e.g., highly non-coplanar. Indeed, we found examples of 3-planet configurations with the middle planet in a retrograde orbit, which are stable for at least 1Gyr, and consistent with the observations. The (O-C) may be also driven by oscillations of the gravitational quadrupole moment of the secondary, as predicted by the Lanza et al. modification of the Applegate mechanism. Further systematic, long-term monitoring of HU Aqr is required to interpret the (O-C) residuals.
The Astrophysical Journal | 2016
Dipanjan Mitra; Rahul Basu; Krzysztof Maciesiak; Anna Skrzypczak; George I. Melikidze; Andrzej Szary; Krzysztof Krzeszowski
We have conducted the Meterwavelength Single-pulse Polarimetric Emission Survey to study the radio emission properties of normal pulsars. A total of 123 pulsars with periods between 0.1 seconds and 8.5 seconds were observed in the survey at two different frequencies, 105 profiles at 333 MHz, 118 profiles at 618 MHz and 100 pulsars at both. In this work we concentrate primarily on the time-averaged properties of the pulsar emission. The measured widths of the pulsar profiles in our sample usually exhibit the radius to frequency mapping. We validate the existence of lower bounds for the distribution of profile widths with pulsar period (
Astronomy and Astrophysics | 2011
Wojciech Lewandowski; J. Kijak; Yashwant Gupta; Krzysztof Krzeszowski
P
Monthly Notices of the Royal Astronomical Society | 2017
Michał Żejmo; Aga Słowikowska; Krzysztof Krzeszowski; P. Reig; D. Blinov
), which is seen for multiple definitions of the width, viz. a lower boundary line (LBL) at
Monthly Notices of the Royal Astronomical Society | 2016
Aga Słowikowska; Krzysztof Krzeszowski; Michał Żejmo; P. Reig; Iain A. Steele
2.7^{\circ} P^{-0.5}
Astronomy and Astrophysics | 2013
O. Maron; M. Serylak; J. Kijak; Krzysztof Krzeszowski; Dipanjan Mitra; A. Jessner
with width measured at 50% level of profile peak, a LBL at
The Astronomical Journal | 2017
Ilham Nasiroglu; Aga Słowikowska; Krzysztof Krzeszowski; Michał Żejmo; S. Zola; H. Er; W. Ogloza; M. Drozdz; D. Kozieł-Wierzbowska; B. Debski; Nazlı Görücü Karaman
5.7^{\circ} P^{-0.5}
Monthly Notices of the Royal Astronomical Society | 2014
Krzysztof Krzeszowski; O. Maron; Agnieszka Slowikowska; J. Dyks; A. Jessner
for 10% level of peak and LBL at
