Your search keyword '"In T Zand, J. J. M."' showing total 15 results

1. Searching for the most powerful thermonuclear X-ray bursts with the Neil Gehrels Swift Observatory.

Author

in 't Zand, J. J. M., Kries, M. J. W., Palmer, D. M., and Degenaar, N.

Subjects

*X-ray bursts, *BIG data, *STELLAR populations, *GALAXIES, *HISTOGRAMS

Abstract

We searched for thermonuclear X-ray bursts from Galactic neutron stars in all event mode data of the Neil Gehrels Swift Observatory collected until March 31, 2018. In particular, we are interested in the intermediate-duration bursts (shell flashes fueled by thick helium piles) with the ill-understood phenomenon of strong flux fluctuations. Nine such bursts have been discussed in the literature to date. Swift is particularly suitable for finding additional examples. We find and list a total of 134 X-ray bursts; 44 are detected with BAT only, 41 with XRT only, and 49 with both. Twenty-eight bursts involve automatic slews. We find 12 intermediate-duration bursts, all detected in observations involving automatic slews. Five show remarkably long Eddington-limited phases in excess of 200 s. Five show fluctuations during the decay phase; four of which are first discussed in the present study. We discuss the general properties of the fluctuations, considering also 7 additional literature cases. In general two types of fluctuations are observed: fast ones, with a typical timescale of 1 s and up and downward fluctuations of up to 70%, and slow ones, with a typical timescale of 1 min and only downward fluctuations of up to 90%. The latter look like partial eclipses because the burst decay remains visible in the residual emission. We revisit the interpretation of this phenomenon in the context of the new data set and find that it has not changed fundamentally despite the expanded data set. It is thought to be due to a disturbance of the accretion disk by outflowing matter and photons, causing obscuration and reflection due to Thompson scattering in an orbiting highly ionized cloud or structure above or below the disk. We discuss in detail the most pronounced burster SAX J1712.6–3739. One of the bursts from this source is unusual in that it lasts longer than 5600 s, but does not appear to be a superburst. [ABSTRACT FROM AUTHOR]

Published

2019

2. Comparing Prompt Emission from X-ray Flashes and Gamma-ray Bursts.

Author

Kippen, R. M., in 't Zand, J. J. M., Woods, P. M., Heise, J., Preece, R. D., and Briggs, M. S.

Subjects

*GAMMA ray bursts, *X-ray bursts, *GAMMA ray astronomy, *GALAXIES, *AFTERGLOW (Physics), *ASTROPHYSICS

Abstract

The final year of the BeppoSAX mission provided a much needed clue as to the nature of X-ray flashes. The detection of afterglow counterparts and their underlying hosts provides strong evidence that X-ray flashes and gamma-ray bursts originate from similar sources in cosmologically distant galaxies. These observations support findings that the prompt emission characteristics of X-ray flashes are similar to those of traditional gamma-ray bursts. Using wide-band observations from BeppoSAX and BATSE, we present the latest results in our on-going effort to quantify the similarities and differences in prompt emission characteristics. © 2004 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published

2004

3. New BeppoSAX-WFC results on superbursts.

Author

In 't Zand, J. J. M., Cornelisse, R., Kuulkers, E., Verbunt, F., and Heise, J.

Subjects

*NEUTRON stars, *X-ray bursts, *GALACTIC X-ray sources, *LARGE space structures (Astronautics), *NUCLEAR physics

Abstract

Presently seven superbursters have been identified representing 10% of the total Galactic X-ray burster population. Four superbursters were discovered with the Wide Field Cameras (WFCs) on BeppoSAX and three with the All-Sky Monitor and Proportional Counter Array on RXTE. We discuss the properties of superbursters as derived from WFC observations. There are two interesting conclusions. First, the average recurrence time of superbursts among X-ray bursters that are more luminous than 10% of the Eddington limit is 1.5 yr per object. Second, superbursters systematically have higher α values and shorter ordinary bursts than most bursters that have not exhibited superbursts, indicating a higher level of stable thermonuclear helium burning. Theory predicts hitherto undetected superbursts from the most luminous neutron stars. We investigate the prospects for finding these in GX 17+2. © 2004 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published

2004

4. Relativistic outflow from two thermonuclear shell flashes on neutron stars.

Author

in 't Zand, J. J. M., Keek, L., and Cavecchi, Y.

Subjects

*X-ray bursts, *NEUTRON stars, *BINARY stars, *EDDINGTON mass limit, *RELATIVISTIC astrophysics

Abstract

We study the exceptionally short (32–43 ms) precursors of two intermediate-duration thermonuclear X-ray bursts observed with the Rossi X-ray Timing Explorer from the neutron stars in 4U 0614+09 and 2S 0918-549. They exhibit photon fluxes that surpass those at the Eddington limit later in the burst by factors of 2.6 to 3.1.We are able to explain both the short duration and the super-Eddington flux by mildly relativistic outflow velocities of 0.1c to 0.3c subsequent to the thermonuclear shell flashes on the neutron stars. These are the highest velocities ever measured from any thermonuclear flash. The precursor rise times are also exceptionally short: about 1 ms. This is inconsistent with predictions for nuclear flames spreading laterally as deflagrations and suggests detonations instead. This is the first time that a detonation is suggested for such a shallow ignition column depth (yign ≈ 1010 g cm−2). The detonation would possibly require a faster nuclear reaction chain, such as bypassing the α-capture on 12C with the much faster 12C(p, γ)13N(α, p)16O process previously proposed. We confirm the possibility of a detonation, albeit only in the radial direction, through the simulation of the nuclear burning with a large nuclear network and at the appropriate ignition depth, although it remains to be seen whether the Zel’dovich criterion is met. A detonation would also provide the fast flame spreading over the surface of the neutron star to allow for the short rise times. This needs to be supported by future two-dimensional calculations of flame spreading at the relevant column depth. As an alternative to the detonation scenario, we speculate on the possibility that the whole neutron star surface burns almost instantly in the auto-ignition regime. This is motivated by the presence of 150 ms precursors with 30 ms rise times in some superexpansion bursts from 4U 1820-30 at low ignition column depths of ∼108 g cm−2. [ABSTRACT FROM AUTHOR]

Published

2014

5. Indications for a slow rotator in the Rapid Burster from its thermonuclear bursting behaviour.

Author

Bagnoli, T., in ’t Zand, J. J. M., Galloway, D. K., and Watts, A. L.

Subjects

*THERMONUCLEAR reactions in stars, *BINARY stars, *NEUTRON stars, *X-ray bursts, *EDDINGTON mass limit

Abstract

We perform time-resolved spectroscopy of all the type I bursts from the Rapid Burster (MXB 1730−335) detected with the Rossi X-Ray Timing Explorer. Type I bursts are detected at high accretion rates, up to ≃45 per cent of the Eddington luminosity. We find evidence that bursts lacking the canonical cooling in their time-resolved spectra are, nonetheless, thermonuclear in nature. The type I bursting rate keeps increasing with the persistent luminosity, well above the threshold at which it is known to abruptly drop in other bursting low-mass X-ray binaries. The only other known source in which the bursting rate keeps increasing over such a large range of mass accretion rates is the 11 Hz pulsar IGR J17480−2446. This may indicate a similarly slow spin for the neutron star in the Rapid Burster. [ABSTRACT FROM AUTHOR]

Published

2013

6. Superexpansion as a possible probe of accretion in 4U 1820-30.

Author

in 't Zand, J. J. M., Homan, J., Keek, L., and Palmer, D. M.

Subjects

*ACCRETION (Astrophysics), *X-ray binaries, *NEUTRON stars, *HELIUM, *STELLAR photospheres, *ASTRONOMY, *ASTROPHYSICS

Abstract

The ultracompact X-ray binary 4U 1820-30 is well known for its ≈170-d superorbital modulation in X-ray flux and spectrum, and the exclusiveness of bursting behavior to the low hard "island" state. In May-June 2009, there was an exceptionally long 51-d low state. This state was well covered by X-ray observations and 12 bursts were detected, 9 with the high-throughput RXTE.We investigate the character of these X-ray bursts and find an interesting change in their photospheric expansion behavior. At the lowest inferred mass accretion rates, this expansion becomes very large in 4 bursts and reaches the so-called superexpansion regime. We speculate that this is due to the geometry of the inner accretion flow being spherical and a decreasing accretion rate: when the flow geometry nearest to the neutron star is spherical and the accretion rate is low, the ram pressure of the accretion disk may become too low to counteract that of the photospheric expansion. In effect, this may provide a novel means to probe the accretion flow. Additionally, we observe a peculiar effect: the well-known cessation of X-ray bursts in the high state is too quick to be consistent with a transition to stable helium burning. We suggest an alternative explanation, that the cessation is due to the introduction of a non-nuclear heat source in the neutron star ocean [ABSTRACT FROM AUTHOR]

Published

2012

7. XMMU J181227.8–181234: a new ultracompact X-ray binary candidate.

Author

Goodwin, A J, Galloway, D K, in 't Zand, J J M, Kuulkers, E, Bilous, A, and Keek, L

Subjects

*X-ray binaries, *GAMMA ray bursts, *X-ray bursts, *NEUTRON stars, *EDDINGTON mass limit, *NEUTRON sources

Abstract

We report the discovery of Type I (thermonuclear) X-ray bursts from the transient source XMMU J181227.8–181234 = XTE J1812–182. We found seven X-ray bursts in Rossi X-ray Timing Explorer observations during the 2008 outburst, confirming the source as a neutron star low-mass X-ray binary. Based on the measured burst fluence and the average recurrence time of 1.4 |$^{+0.9}_{-0.5}$|  h, we deduce that the source is accreting almost pure helium (X ≤ 0.1) fuel. Two bursts occurred just 18 min apart; the first short waiting time bursts observed in a source accreting hydrogen-poor fuel. Taking into consideration the effects on the burst and persistent flux due to the inferred system inclination of 30 ± 10°, we estimate the distance to be 14 ± 2 kpc, where we report the statistical uncertainty but note that there could be up to |$20{{\ \rm per\ cent}}$| variation in the distance due to systematic effects discussed in the paper. The corresponding maximum accretion rate is 0.30 ± 0.05 times the Eddington limit. Based on the low hydrogen content of the accreted fuel and the short average recurrence time, we classify the source as a transient ultracompact low-mass X-ray binary. [ABSTRACT FROM AUTHOR]

Published

2019

8. A catalogue of unusually long thermonuclear bursts on neutron stars.

Author

Alizai, K, Chenevez, J, Cumming, A, Degenaar, N, Falanga, M, Galloway, D K, in 't Zand, J J M, Jaisawal, G K, Keek, L, Kuulkers, E, Lampe, N, Schatz, H, and Serino, M

Subjects

*NEUTRON stars, *X-ray bursts, *X-ray binaries, *GAMMA ray bursts, *CATALOGS, *STELLAR photospheres, *CATALOGING

Abstract

Rare, energetic (long) thermonuclear (Type I) X-ray bursts are classified either as intermediate-duration or 'supern' bursts, based on their duration. Intermediate-duration bursts lasting a few to tens of minutes are thought to arise from the thermonuclear runaway of a relatively thick (≈1010 g cm−2) helium layer, while superbursts lasting hours are attributed to the detonation of an underlying carbon layer. We present a catalogue of 84 long thermonuclear bursts from 40 low-mass X-ray binaries, and defined from a new set of criteria distinguishing them from the more frequent short bursts. The three criteria are: (1) a total energy release longer than 1040 erg, (2) a photospheric radius expansion phase longer than 10 s, and (3) a burst time-scale longer than 70 s. This work is based on a comprehensive systematic analysis of 70 bursts found with INTEGRAL, RXTE, Swift, BeppoSAX, MAXI , and NICER , as well as 14 long bursts from the literature that were detected with earlier generations of X-ray instruments. For each burst, we measure its peak flux and fluence, which eventually allows us to confirm the distinction between intermediate-duration bursts and superbursts. Additionally, we list 18 bursts that only partially meet the above inclusion criteria, possibly bridging the gap between normal and intermediate-duration bursts. With this catalogue, we significantly increase the number of long-duration bursts included in the MINBAR and thereby provide a substantial sample of these rare X-ray bursts for further study. [ABSTRACT FROM AUTHOR]

Published

2023

9. The Swift Bulge Survey: optical and near-IR follow-up featuring a likely symbiotic X-ray binary and a focused wind CV.

Author

Shaw, A W, Heinke, C O, Maccarone, T J, Sivakoff, G R, Strader, J, Bahramian, A, Degenaar, N, Kennea, J A, Kuulkers, E, Rau, A, Rivera Sandoval, L E, Shishkovsky, L, Swihart, S J, Tetarenko, A J, Wijnands, R, and in 't Zand, J J M

Subjects

*X-ray binaries, *GALACTIC X-ray sources, *X-ray bursts, *GIANT stars, *NEUTRON stars, *BINARY stars, *PAIR production

Abstract

The nature of very faint X-ray transients (VFXTs) – transient X-ray sources that peak at luminosities |$L_X\lesssim 10^{36} {\rm \, erg \, s^{-1}}$| – is poorly understood. The faint and often short-lived outbursts make characterizing VFXTs and their multiwavelength counterparts difficult. In 2017 April we initiated the Swift Bulge Survey, a shallow X-ray survey of ∼16 square degrees around the Galactic centre with the Neil Gehrels Swift Observatory. The survey has been designed to detect new and known VFXTs, with follow-up programmes arranged to study their multiwavelength counterparts. Here we detail the optical and near-infrared follow-up of four sources detected in the first year of the Swift Bulge Survey. The known neutron star binary IGR J17445-2747 has a K4III donor, indicating a potential symbiotic X-ray binary nature and the first such source to show X-ray bursts. We also find one nearby M-dwarf (1SXPS J174215.0-291453) and one system without a clear near-IR counterpart (Swift J175233.9-290952). Finally, 3XMM J174417.2-293944 has a subgiant donor, an 8.7 d orbital period, and a likely white dwarf accretor; we argue that this is the first detection of a white dwarf accreting from a gravitationally focused wind. A key finding of our follow-up campaign is that binaries containing (sub)giant stars may make a substantial contribution to the VFXT population. [ABSTRACT FROM AUTHOR]

Published

2020

10. The BeppoSAX WFC source catalogue.

Author

Verrecchia, F., Giommi, P., Santolamazza, P., in 't Zand, J. J. M., Granata, S., and Schuurmans, J. J.

Subjects

*X-ray astronomy, *X-rays, *VIEW cameras, *GALAXIES, *BINARY stars, *CATALOGS

Abstract

We present the catalogue of X-ray sources detected by the two Wide Field Cameras (WFCs) on board BeppoSAX during its 6 years of operational lifetime (April 1996 – April 2002). At the ASI Science Date Center (ASDC) we carried out a first systematic processing of all public data in the BeppoSAX WFC archive and the complete scientific results data base (images, spectra and light-curves) is available on-line. The procedure developed makes use of the post mission WFC analysis software and calibration and incorporates the full experience gained during the BeppoSAX operational phase. The catalogue of X-ray sources detected with the Wide Field Cameras (WFCs) includes 7209 detections of 232 sources, in particular 86 Low Mass X-ray Binaries (LMXBs), 49 High Mass X-ray Binaries (HMXBs), 9 Cataclismic Variables (CVs), 40 Active Galactic Nuclei (AGNs) and 8 clusters of galaxies. Here we present some statistical and spectral properties of the sample. © 2007 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published

2007

11. Spectral Characteristics of X-Ray Flashes Compared to Gamma-Ray Bursts.

Author

Kippen, R. M., Woods, P. M., Heise, J., in ’t Zand, J. J. M., Briggs, M. S., and Preece, R. D.

Subjects

*X-ray astronomy, *GAMMA ray bursts, *ASTRONOMY

Abstract

X-ray flashes (XRFs) are a new type of fast transient source observed with the BeppoSAX Wide Field Cameras (WFC) at a rate of about four per year. Apart from their large fraction of 2-26 kev X-rays, the bulk properties of these events are similar to those of classical gamma-ray bursts (GRBs). By investigating the wideband spectra often events detected in common with WFC and BATSE, we explore the possibility that XRFs are a low-energy branch of the GRB population. We find that XRF spectra are similar to those of GRBs, and that their low peak energies could be an extension of known GRB properties. [ABSTRACT FROM AUTHOR]

Published

2003

12. SUPERBURST MODELS FOR NEUTRON STARS WITH HYDROGEN- AND HELIUM-RICH ATMOSPHERES.

Author

Keek, L., Heger, A., and in 't Zand, J. J. M.

Subjects

*ACCRETION (Astrophysics), *PROTOPLANETARY disks, *STARBURSTS, *NEUTRON stars, *NUCLEOSYNTHESIS, *BINARY stars, *X-ray bursts

Abstract

Superbursts are rare day-long type I X-ray bursts due to carbon flashes on accreting neutron stars in low-mass X-ray binaries. They heat the neutron star envelope such that the burning of accreted hydrogen and helium becomes stable, and the common shorter X-ray bursts are quenched. Short bursts reappear only after the envelope cools down. We study multi-zone one-dimensional models of the neutron star envelope, in which we follow carbon burning during the superburst, and we include hydrogen and helium burning in the atmosphere above. We investigate the cases of both a solar-composition and a helium-rich atmosphere. This allows us to study for the first time a wide variety of thermonuclear burning behavior as well as the transitions between the different regimes in a self-consistent manner. For solar composition, burst quenching ends much sooner than previously expected. This is because of the complex interplay between the 3α, hot CNO, and CNO breakout reactions. Stable burning of hydrogen and helium transitions via marginally stable burning (mHz quasi-periodic oscillations) to less energetic bursts with short recurrence times. We find a short-lived bursting mode where weaker and stronger bursts alternate. Eventually the bursting behavior changes back to that of the pre-superburst bursts. Because of the scarcity of observations, this transition has not been directly detected after a superburst. Using the MINBAR burst catalog we identify the shortest upper limit on the quenching time for 4U 1636–536, and derive further constraints on the timescale on which bursts return. [ABSTRACT FROM AUTHOR]

Published

2012

13. Puzzling thermonuclear burst behaviour from the transient low-mass X-ray binary IGR J17473−2721.

Author

Chenevez, J., Altamirano, D., Galloway, D. K., in 't Zand, J. J. M., Kuulkers, E., Degenaar, N., Falanga, M., Monte, E. Del, Evangelista, Y., Feroci, M., and Costa, E.

Subjects

*LOW mass stars, *X-ray binaries, *X-ray bursts, *ACCRETION (Astrophysics), *FIELD emission, *NEUTRON stars, *ASTROPHYSICS

Abstract

We investigate the thermonuclear bursting behaviour of IGR J2721, an X-ray transient that in 2008 underwent a 6-month long outburst, starting (unusually) with an X-ray burst. We detected a total of 57 thermonuclear bursts throughout the outburst with AGILE, Swift, Rossi X-ray Timing Explorer ( RXTE) and the INTErnational Gamma-Ray Astrophysics Laboratory (INTEGRAL). The wide range of inferred accretion rates (between <1 and ≃20 per cent of the Eddington accretion rate ) spanned during the outburst allows us to study changes in the nuclear burning processes and to identify up to seven different phases. The burst rate increased gradually with the accretion rate until it dropped (at a persistent flux corresponding to ≃15 per cent of ) a few days before the outburst peak, after which bursts were not detected for a month. As the persistent emission subsequently decreased, the bursting activity resumed at a much lower rate than during the outburst rise. This hysteresis may arise from the thermal effect of the accretion on the surface nuclear burning processes, and the time-scale is roughly consistent with that expected for the neutron star crust thermal response. On the other hand, an undetected 'superburst', occurring within a data gap near the outburst peak, could have produced a similar quenching of burst activity. [ABSTRACT FROM AUTHOR]

Published

2011

14. The Prompt and Afterglow Emission of GRB 001109 Measured by BeppoSAX.

Author

Amati, L., Frontera, F., Castro Cerón, J. M., Costa, E., Feroci, M., Gandolfi, G., Giommi, P., Guidorzi, C., Masetti, N., Montanari, E., Piro, L., Soffitta, P., and in ’t Zand, J. J. M.

Subjects

*GAMMA ray bursts, *ARTIFICIAL satellites, *GAMMA ray astronomy

Abstract

We present here preliminary results of BeppoSAX measurements of the prompt (2-700 keV) and afterglow (0.1 - 10 keV) emission of the 'dark' GRB 001109. The burst light curves show indication of pulse broadening with the decrease of the energy band and its average spectrum is well described by the standard Band function from X to gamma-rays. The X-ray afterglow emission shows a monotonic power-law decay and its spectrum can be satisfactorily fitted with a photo-electrically absorbed power-law. Both the decay index and the photon index are inside the range of common values found in GRBs afterglows. More detailed data analysis and interpretation is in progress. [ABSTRACT FROM AUTHOR]

Published

2003

15. XMM-Newton follow-up of 3 BeppoSAX-WFC detected Clusters of Galaxies.

Author

Grange, Y. G., Costantini, E., de Plaa, J., in 't Zand, J. J. M., Kaastra, J. S., and Verbunt, F.

Subjects

*GALAXY clusters, *SPECTRUM analysis, *ASTRONOMICAL observations, *STAR formation, *SUPERCLUSTERS

Abstract

We study the physical properties of three clusters of galaxies, selected from the Bep-poSAX Wide Field Camera (WFC) survey. We obtained XMM-Newton follow-up observations for these three clusters and fit emission models to spectra obtained from the EPIC-pn. We determine the temperature, as well as the radial Fe abundances profiles. Two clusters were affected by an enhanced soft-proton background. Despite of this, we are able to classify one cluster as a cool-core cluster (kT∼3.0 keV) and a another as non-cool-core cluster (kT 8.2 keV). The dimmest cluster was not classified, and has a temperature of 3.2 keV. [ABSTRACT FROM AUTHOR]

Published

2010