Your search keyword '"Iłkiewicz K"' showing total 10 results

1. Burst-induced spin variations in the accreting magnetic white dwarf PBC J0801.2–4625.

Author

Irving, Z A, Altamirano, D, Scaringi, S, Veresvarska, M, Knigge, C, Castro Segura, N, De Martino, D, and Iłkiewicz, K

Subjects

MAGNETIC declination, WHITE dwarf stars, DWARF novae, DWARF stars, LIGHT curves, ASTRONOMICAL surveys, STELLAR magnetic fields, SOLAR radio bursts

Abstract

PBC J0801.2–4625 is an intermediate polar with a primary spin frequency of 66.08 d−1 and an unknown orbital period. The long-term All Sky Automated Survey for Supernovae (ASAS-SN) light curve of this system reveals four bursts, all of which have similar peak amplitudes (∼2 mag) and durations (∼2 d). In this work, we primarily study the timing properties of this system's 2019 February burst, which was simultaneously observed by both ASAS-SN and the Transiting Exoplanet Survey Satellite (TESS). Pre-burst, a frequency of 4.064 ± 0.002 d−1(5.906 ± 0.003 h period), likely attributed to the binary orbit, is identified in addition to previous measurements for the white dwarf's spin. During the burst, however, we find a spin frequency of 68.35 ± 0.28 d−1. Post-burst, the spin returns to its pre-brust value but with a factor 1.82 ± 0.05 larger amplitude. The burst profile is double-peaked, and we estimate its energy to be 3.3 × 1039 erg. We conclude that the burst appears most consistent with thermonuclear runaway (i.e. a 'micronova'), and suggest that the spin variations may be an analogue to burst oscillations (i.e. 'micronova oscillations'). However, we also note that the above findings could be explained by a dwarf nova outburst. With the available data, we are unable to distinguish between these two scenarios. [ABSTRACT FROM AUTHOR]

Published

2024

2. Evolution of spin in the intermediate polar CC sculptoris.

Author

Paice, John A, Scaringi, S, Castro Segura, N, Sahu, A, Iłkiewicz, K, Coppejans, Deanne L, De Martino, D, Knigge, C, and Veresvarska, M

Subjects

DWARF novae, DWARF stars, WHITE dwarf stars, CATACLYSMIC variable stars

Abstract

We report on spin variations in the intermediate polar and cataclysmic variable CC Scl, as seen by the Transiting Exoplanet Survey Satellite (TESS). By studying both the spin period and its harmonic, we find that the spin has varied since it was first observed in 2011. We find the latest spin value for the source to be 389.473(6) s, equivalent to 0.00450779(7) d, 0.02 s shorter than the first value measured. A linear fit to these and intermediate data give a rate of change of spin (Ṗ) ∼ −4.26(2.66)× 10−11 and a characteristic time-scale τ ∼ 2.90 × 105 yr, in line with other known intermediate polars with varying spin. The spin profile of this source also matches theoretical spin profiles of high-inclination intermediate polars, and furthermore, appears to have changed in shape over a period of three years. Such 'spin-up' in an intermediate polar is considered to be from mass accretion on to the white dwarf (the primary), and we note the presence of dwarf nova eruptions in this source as being a possible catalyst of the variations. [ABSTRACT FROM AUTHOR]

Published

2024

3. Spectroscopic follow-up of a subset of the Gaia/IPHAS catalogue of Hα-excess sources.

Author

Fratta, M, Scaringi, S, Monguió, M, Pala, A F, Drew, J E, Knigge, C, Iłkiewicz, K A, and Gandhi, P

Subjects

CATALOGS, CATALOGING, TELESCOPES, CLASSIFICATION, SYNCOPE

Abstract

State-of-the-art techniques to identify Hα emission-line sources in narrow-band photometric surveys consist of searching for  Hα excess with reference to nearby objects in the sky (position-based selection). However, while this approach usually yields very few spurious detections, it may fail to select intrinsically faint and/or rare Hα-excess sources. In order to obtain a more complete representation of the heterogeneous emission-line populations, we recently developed a technique to find outliers relative to nearby objects in the colour–magnitude diagram (CMD-based selection). By combining position-based and CMD-based selections, we built an updated catalogue of Hα-excess candidates in the Northern Galactic Plane. Here, we present spectroscopic follow-up observations and classification of 114 objects from this catalogue that enables us to test our novel selection method. Out of the 70 spectroscopically confirmed Hα-emitters in our sample, 15 were identified only by the CMD-based selection, and would have been thus missed by the classic position-based technique. In addition, we explore the distribution of our spectroscopically confirmed emitters in the Gaia CMD. This information can support the classification of emission-line sources in large surveys such as the upcoming WEAVE and 4-m Multi-Object Spectroscopic Telescope , especially if augmented with the introduction of other colours. [ABSTRACT FROM AUTHOR]

Published

2023

4. Population-based identification of H α-excess sources in the Gaia DR2 and IPHAS catalogues.

Author

Fratta, M, Scaringi, S, Drew, J E, Monguió, M, Knigge, C, Maccarone, T J, Court, J M C, Iłkiewicz, K A, Pala, A F, Gandhi, P, and Gänsicke, B

Subjects

CATALOGS, CATALOGING, STELLAR populations

Abstract

We present a catalogue of point-like H  α -excess sources in the Northern Galactic Plane. Our catalogue is created using a new technique that leverages astrometric and photomeric information from Gaia to select H  α -bright outliers in the INT Photometric H  α Survey of the Northern Galactic Plane (IPHAS), across the colour–absolute magnitude diagram. To mitigate the selection biases due to stellar population mixing and to extinction, the investigated objects are first partitioned with respect to their positions in the Gaia colour–absolute magnitude space, and Galactic coordinates space, respectively. The selection is then performed on both partition types independently. Two significance parameters are assigned to each target, one for each partition type. These represent a quantitative degree of confidence that the given source is a reliable H  α -excess candidate, with reference to the other objects in the corresponding partition. Our catalogue provides two flags for each source, both indicating the significance level of the H  α -excess. By analysing their intensity in the H  α narrow band, 28 496 objects out of 7474 835 are identified as H  α -excess candidates with a significance higher than 3. The completeness fraction of the H  α outliers selection is between 3 and 5 per cent. The suggested 5 σ conservative cut yields a purity fraction of 81.9 per cent. [ABSTRACT FROM AUTHOR]

Published

2021

5. The symbiotic recurrent nova V3890 Sgr: binary parameters and pre-outburst activity.

Author

Mikołajewska, J, Iłkiewicz, K, Gałan, C, Monard, B, Otulakowska-Hypka, M, Shara, M M, and Udalski, A

Subjects

*NOVAE (Astronomy), *LARGE magellanic cloud, *TYPE I supernovae, *ROCHE equipotentials, *ACCRETION disks, *RED giants

Abstract

We present and analyse optical photometry and high-resolution Southern African Large Telescope spectra of the symbiotic recurrent nova V3890 Sgr at quiescence. The orbital period, P = 747.6 d, has been derived from both photometric and spectroscopic data. Our double-line spectroscopic orbits indicate that the mass ratio is q = M g/ M WD = 0.78 ± 0.05, and that the component masses are M WD ≈ 1.35 ± 0.13 M⊙ and M g ≈ 1.05 ± 0.11 M⊙. The orbit inclination is ≈67−69○. The red giant is filling (or nearly filling) its Roche lobe, and the distance set by its Roche lobe radius, d ≈ 9 kpc, is consistent with that resulting from the giant pulsation period. The outburst magnitude of V3890 Sgr is then very similar to those of RNe in the Large Magellanic Cloud. V3890 Sgr shows remarkable photometric and spectroscopic activity between the nova eruptions with time-scales similar to those observed in the symbiotic recurrent novae T CrB and RS Oph and Z And-type symbiotic systems. The active source has a double-temperature structure that we have associated with the presence of an accretion disc. The activity would be then caused by changes in the accretion rate. We also provide evidence that V3890 Sgr contains a CO WD accreting at a high, ∼a few× 10−8 to 10−7 M⊙ yr−1, rate. The WD is growing in mass, and should give rise to a Type Ia supernova within ≲106 yr – the expected lifetime of the red giant. [ABSTRACT FROM AUTHOR]

Published

2021

6. Optical spectroscopy and X-ray observations of the D-type symbiotic star EF Aql.

Author

Stoyanov, K A, Iłkiewicz, K, Luna, G J M, Mikołajewska, J, Mukai, K, Martí, J, Latev, G, Boeva, S, and Zamanov, R K

Subjects

*OPTICAL spectroscopy, *X-ray spectroscopy, *OPTICAL telescopes, *MOLECULAR spectra, *MASS loss (Astrophysics), *STARS

Abstract

We performed high-resolution optical spectroscopy and X-ray observations of the recently identified Mira-type symbiotic star EF Aql. Based on high-resolution optical spectroscopy obtained with the Southern African Large Telescope (SALT), we determine the temperature (∼55 000 K) and the luminosity (∼5.3 L⊙) of the hot component in the system. The heliocentric radial velocities of the emission lines in the spectra reveal possible stratification of the chemical elements. We also estimate the mass-loss rate of the Mira donor star. Our Swift observation did not detect EF Aql in X-rays. The upper limit of the X-ray observations is 10−12 erg cm−2 s−1, which means that EF Aql is consistent with the faintest X-ray systems detected so far. Otherwise we detected it with the UltraViolet and Optical Telescope (UVOT) instrument with an average UVM2 magnitude of 14.05. During the exposure, EF Aql became approximately 0.2  UVM2 magnitudes fainter. The periodogram analysis of the V -band data reveals an improved period of 320.4 ± 0.3 d caused by the pulsations of the Mira-type donor star. [ABSTRACT FROM AUTHOR]

Published

2020

7. SALT HRS discovery of a long-period double-degenerate binary in the planetary nebula NGC 1360.

Author

Miszalski, B., Manick, R., Mikołajewska, J., Iłkiewicz, K., Kamath, D., and Van Winckel, H.

Subjects

STELLAR evolution, PLANETARY nebulae, INTERSTELLAR medium, WHITE dwarf stars, COMPACT objects (Astronomy), ASTRONOMICAL photometry

Abstract

Whether planetary nebulae (PNe) are predominantly the product of binary stellar evolution as some population synthesis models (PSM) suggest remains an open question. Around 50 short-period binary central stars (P ∼ 1 d) are known, but with only four with measured orbital periods over 10 d, our knowledge is severely incomplete. Here we report on the first discovery from a systematic Southern African Large Telescope (SALT) High Resolution Spectrograph (HRS) survey for long-period binary central stars. We find a 142 d orbital period from radial velocities of the central star of NGC1360, HIP 16566. NGC1360 appears to be the product of common-envelope (CE) evolution, with nebula features similar to post-CE PNe, albeit with an orbital period considerably longer than expected to be typical of post-CE PSM. The most striking feature is a newly identified ring of candidate low-ionization structures. Previous spatiokinematic modelling of the nebula gives a nebula inclination of 30° ± 10°, and assuming the binary nucleus is coplanar with the nebula, multiwavelength observations best fit a more massive, evolved white dwarf (WD) companion. A WD companion in a 142 d orbit is not the focus of many PSM, making NGC1360 a valuable system with which to improve future PSM work. HIP 16566 is amongst many central stars in which large radial velocity variability was found by low-resolution surveys. The discovery of its binary nature may indicate long-period binaries may be more common than PSM models predict. [ABSTRACT FROM AUTHOR]

Published

2018

8. The occurrence of binary evolution pulsators in classical instability strip of RR Lyrae and Cepheid variables.

Author

Karczmarek, P., Wiktorowicz, G., Iłkiewicz, K., Smolec, R., Stępień, K., Pietrzyński, G., Gieren, W., and Belczynski, K.

Subjects

STAR formation, INSTABILITY strip (Astrophysics), ASTROPHYSICS, LOW mass stars, STARS

Abstract

Single star evolution does not allow extremely low-mass stars to cross the classical instability strip (IS) during the Hubble time. However, within binary evolution framework low-mass stars can appear inside the IS once the mass transfer (MT) is taken into account. Triggered by a discovery of low-mass (0.26 M☉) RR Lyrae-like variable in a binary system, OGLE-BLGRRLYR- 02792, we investigate the occurrence of similar binary components in the IS, which set up a new class of low-mass pulsators. They are referred to as binary evolution pulsators (BEPs) to underline the interaction between components, which is crucial for substantial mass-loss prior to the IS entrance. We simulate a population of 500 000 metal-rich binaries and report that 28 143 components of binary systems experience severe MT (losing up to 90 per cent of mass), followed by at least one IS crossing in luminosity range of RR Lyrae (RRL) or Cepheid variables. A half of these systems enter the IS before the age of 4 Gyr. BEPs display a variety of physical and orbital parameters, with the most important being the BEP mass in range 0.2-0.8 M☉, and the orbital period in range 10-2 500 d. Based on the light curve only, BEPs can be misclassified as genuine classical pulsators, and as such they would contaminate genuine RRL and classical Cepheid variables at levels of 0.8 and 5 per cent, respectively. We state that the majority of BEPs will remain undetected and we discuss relevant detection limitations. [ABSTRACT FROM AUTHOR]

Published

2017

9. The occurrence of binary evolution pulsators in classical instability sof RR Lyrae and Cepheid variables.

Author

Karczmarek, P., Wiktorowicz, G., Iłkiewicz, K., Smolec, R., epień, K. St ę, Pietrzyński, G., Gieren, W., and Belczynski, K.

Subjects

PULSARS, STELLAR evolution, INSTABILITY strip (Astrophysics), MASS transfer, CEPHEIDS, MATHEMATICAL models

Abstract

Single star evolution does not allow extremely low-mass stars to cross the classical instability strip (IS) during the Hubble time. However, within binary evolution framework low-mass stars can appear inside the IS once the mass transfer (MT) is taken into account. Triggered by a discovery of low-mass (0.26 M☉) RR Lyrae-like variable in a binary system, OGLE-BLGRRLYR-02792, we investigate the occurrence of similar binary components in the IS, which set up a new class of low-mass pulsators. They are referred to as binary evolution pulsators (BEPs) to underline the interaction between components, which is crucial for substantial mass-loss prior to the IS entrance. We simulate a population of 500 000 metal-rich binaries and report that 28 143 components of binary systems experience severe MT (losing up to 90 per cent of mass), followed by at least one IS crossing in luminosity range of RR Lyrae (RRL) or Cepheid variables. A half of these systems enter the IS before the age of 4 Gyr. BEPs display a variety of physical and orbital parameters, with the most important being the BEP mass in range 0.2-0.8 M☉, and the orbital period in range 10-2 500 d. Based on the light curve only, BEPs can be misclassified as genuine classical pulsators, and as such they would contaminate genuine RRL and classical Cepheid variables at levels of 0.8 and 5 per cent, respectively. We state that the majority of BEPs will remain undetected and we discuss relevant detection limitations. [ABSTRACT FROM AUTHOR]

Published

2017

10. Black hole, neutron star and white dwarf candidates from microlensing with OGLE-III.

Author

Wyrzykowski, Ł., Kostrzewa-Rutkowska, Z., Skowron, J., Rybicki, K. A., Mróz, P., Kozłowski, S., Udalski, A., Szymański, M. K., Pietrzyński, G., Soszyński, I., Ulaczyk, K., Pietrukowicz, P., Poleski, R., Pawlak, M., Iłkiewicz, K., and Rattenbury, N. J.

Subjects

BLACK holes, WHITE dwarf stars, NEUTRON stars, PARALLAX, MILKY Way

Abstract

Most stellar remnants so far have been found in binary systems, where they interact with matter from their companions. Isolated neutron stars and black holes are difficult to find as they are dark, yet they are predicted to exist in our Galaxy in vast numbers. We explored the OGLE-III data base of 150 million objects observed in years 2001-2009 and found 59 microlensing events exhibiting a parallax effect due to the Earth's motion around the Sun. Combining parallax and brightness measurements from microlensing light curves with expected proper motions in the Milky Way, we identified 13 microlensing events which are consistent with having a white dwarf, neutron star or a black hole lens and we estimated their masses and distances. The most massive of our black hole candidates has 9.3 M⊙ and is at a distance of 2.4 kpc. The distribution of masses of our candidates indicates a continuum in mass distribution with no mass gap between neutron stars and black holes. We also present predictions on how such events will be observed by the astrometric Gaia mission. [ABSTRACT FROM AUTHOR]

Published

2016