Study of the X-ray pulsar IGR J19294+1816 with NuSTAR: Detection of cyclotron line and transition to accretion from the cold disk

In the work we present the results of two deep broadband observations of the poorly studied X-ray pulsar IGR J19294+1816 obtained with the NuSTAR observatory. The source was observed during Type I outburst and in the quiescent state. In the bright state a cyclotron absorption line in the energy spectrum was discovered at Ecyc = 42.8 ± 0.7 keV. Spectral and timing analysis prove the ongoing accretion also during the quiescent state of the source. Based on the long-term flux evolution, particularly on the transition of the source to the bright quiescent state with luminosity around 1035 erg s−1, we conclude that IGR J19294+1816 switched to the accretion from the “cold” accretion disk between Type I outbursts. We also report the updated orbital period of the system.

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Properties of the transient X-ray pulsar Swift J1816.7–1613 and its optical companion

Astronomy and Astrophysics ◽

10.1051/0004-6361/201834635 ◽

2019 ◽

Vol 622 ◽

pp. A198 ◽

Cited By ~ 1

Author(s):

Armin Nabizadeh ◽

Sergey S. Tsygankov ◽

Dmitrij I. Karasev ◽

Juhani Mönkkönen ◽

Alexander A. Lutovinov ◽

...

Keyword(s):

Magnetic Field ◽

Neutron Star ◽

Energy Spectrum ◽

Timing Analysis ◽

Broad Band ◽

Type I ◽

Quiescent State ◽

Band Energy ◽

X Ray ◽

Cyclotron Absorption

We present results of investigation of the poorly studied X-ray pulsar Swift J1816.7–1613 during its transition from the type I outburst to the quiescent state. Our studies are based on the data obtained from X-ray observatories Swift, NuSTAR, and Chandra alongside with the latest IR data from UKIDSS/GPS and Spitzer/GLIMPSE surveys. The aim of the work is to determine the parameters of the system, namely the strength of the neutron star magnetic field and the distance to the source, which are required for the interpretation of the source behaviour in the framework of physically motivated models. No cyclotron absorption line was detected in the broad-band energy spectrum. However, the timing analysis hints at the typical for the X-ray pulsars magnetic field from a few ×1011 to a few ×1012 G. We also estimated the type of the IR-companion as a B0-2e star located at a distance of 7–13 kpc.

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A tale of two periods: determination of the orbital ephemeris of the super-Eddington pulsar NGC 7793 P13

Astronomy and Astrophysics ◽

10.1051/0004-6361/201833292 ◽

2018 ◽

Vol 616 ◽

pp. A186 ◽

Cited By ~ 19

Author(s):

F. Fürst ◽

D. J. Walton ◽

M. Heida ◽

F. A. Harrison ◽

D. Barret ◽

...

Keyword(s):

Accretion Disk ◽

Orbital Period ◽

Timing Analysis ◽

X Ray ◽

System Parameters ◽

Orbital Resonance ◽

Photometric Period ◽

Orbital Periods ◽

Analyze Data

We present a timing analysis of multiple XMM-Newton and NuSTAR observations of the ultra-luminous pulsar NGC 7793 P13 spread over its 65 d variability period. We use the measured pulse periods to determine the orbital ephemeris, confirm a long orbital period with Porb = 63.9+0.5−0.6 d, and find an eccentricity of e ≤ 0.15. The orbital signature is imprinted on top of a secular spin-up, which seems to get faster as the source becomes brighter. We also analyze data from dense monitoring of the source with Swift and find an optical photometric period of 63.9 ± 0.5 d and an X-ray flux period of 66.8 ± 0.4 d. The optical period is consistent with the orbital period, while the X-ray flux period is significantly longer. We discuss possible reasons for this discrepancy, which could be due to a super-orbital period caused by a precessing accretion disk or an orbital resonance. We put the orbital period of P13 into context with the orbital periods implied for two other ultra-luminous pulsars, M82 X-2 and NGC 5907 ULX, and discuss possible implications for the system parameters.

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Flare-Like Events on the T-Tauri Star RU LUP1

International Astronomical Union Colloquium ◽

10.1017/s0252921100154004 ◽

1989 ◽

Vol 104 (2) ◽

pp. 139-142 ◽

Cited By ~ 2

Author(s):

F. Giovannelli ◽

D. Castaldo ◽

E. Covino ◽

A.A. Vittone ◽

C. Rossi

Keyword(s):

Tauri Star ◽

Quiescent State ◽

Complete Coverage ◽

Patchy Distribution ◽

Active Star ◽

X Ray ◽

T Tauri ◽

Observed Behaviour ◽

Flare Stars

AbstractA long term multifrequency campaign on the T Tauri star RU Lupi has been carried out in the X-Ray, UV optical and IR spectral regions with ASTRON and IUE satellites and ESO 1.5 m+IDS, 1.4 m CAT, 0.5 m UBVRI and 1 m IR telescopes, respectively.We present two flare-like events occurred on April 17, 1984 and June 30, 1986. The first one was detected only in the UV, clue to lack the of simultaneous observations in other spectral regions. The second one was observed in UV, optical and IR regions showing a maximum roughly in the U band A comparison of the whole energy distribution of this event with that of a quiescent state observed on June 27 shows a flux enhancement of (89 ± 2)%. A detailed analysis of UV continuum and lines, namely N V, C I, CII, CIV, Si II and Si IV, shows that ihe surfaces fluxes of RU Lupi are always larger than those observed on typical flare stars and on the Sun by a factor of roughly 2 and 3 orders of magnitude, respectively. This fact allows us to conclude that RU Lupi activity cannot be explained even invoking a complete coverage by solar-like plages. On the contrary a patchy distribution of the emitting regions could explain the observed behaviour of this active star.

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Superhump period of SDSS J214354.59+124457.8: First Z Cam star with superhumps in the standstill

Monthly Notices of the Royal Astronomical Society ◽

10.1093/mnras/stz2247 ◽

2019 ◽

Vol 489 (1) ◽

pp. 1451-1462

Author(s):

Metin Altan ◽

Taichi Kato ◽

Ryoko Ishioka ◽

Linda Schmidtobreick ◽

Tolga Güver ◽

...

Keyword(s):

Light Curve ◽

Orbital Period ◽

Timing Analysis ◽

Periodic Signal ◽

Mass Ratio ◽

Short Intervals ◽

Upper Limit ◽

Term Variation ◽

Two Phases

Abstract The cataclysmic variable SDSS J214354.59+124457.8 (hereafter SDSS J214354) was observed photometrically on sixty one nights between 2012 July 28 and 2019 May 26. The long term variation of this object shows changes between two phases; a dwarf nova type and a novalike. This implies that the object belongs to the group of Z Cam type stars. The timing analysis of the light curve reveals a periodic signal at 0.13902(5) d, which we identify as the superhump period. However, the fractional superhump excess of 10 per cent longer than the orbital period is exceptionally large. We obtained a mass ratio of ∼0.4, which is above the accepted upper limit of q = 0.33 for the formation of superhumps. We suggest that the object contains a secondary with an evolved core. With an orbital period of 0.126 d, SDSS J214354 is situated at the upper border of the period gap. The long term light curve of SDSS J214354 is similar to those of Z Cam type stars which are characterized by recurring standstills, followed by short intervals with DN type outbursts. Therefore, we conclude that SDSS J214354 is a new member of the Z Cam type stars.

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Broad-band observations of the Be/X-ray binary pulsar RX J0440.9+4431: discovery of a cyclotron absorption line

Monthly Notices of the Royal Astronomical Society ◽

10.1111/j.1365-2966.2012.20475.x ◽

2012 ◽

Vol 421 (3) ◽

pp. 2407-2413 ◽

Cited By ~ 35

Author(s):

S. S. Tsygankov ◽

R. A. Krivonos ◽

A. A. Lutovinov

Keyword(s):

Absorption Line ◽

Broad Band ◽

X Ray ◽

Binary Pulsar ◽

Cyclotron Absorption

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Discovery of a cyclotron absorption line in the transient X-ray pulsar XTE J1829−098

Monthly Notices of the Royal Astronomical Society Letters ◽

10.1093/mnrasl/sly182 ◽

2018 ◽

Vol 482 (1) ◽

pp. L14-L18 ◽

Cited By ~ 4

Author(s):

A E Shtykovsky ◽

A A Lutovinov ◽

S S Tsygankov ◽

S V Molkov

Keyword(s):

Absorption Line ◽

X Ray ◽

Cyclotron Absorption

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Optical Photometry of LMXBs: UW CrB (=MS 1603+260) and V1408 Aql (=4U 1957+115)

Acta Polytechnica CTU Proceedings ◽

10.14311/app.2015.02.0050 ◽

2015 ◽

Vol 2 (1) ◽

pp. 50-54

Author(s):

P. A. Mason ◽

E. L. Robinson ◽

S. Gomez ◽

J. V. Segura

Keyword(s):

Black Hole ◽

Orbital Period ◽

Light Curves ◽

Optical Data ◽

Published Data ◽

Type I ◽

Optical Photometry ◽

Mean Intensity ◽

X Ray ◽

Low Mass

We present new optical observations of V1408 Aql (= 4U 1957+115), the only low mass X-ray binary, black hole candidate known to be in a persistently soft state. We combine new broadband optical photometry with previously published data and derive a precise orbital ephemeris. The optical light curves display sinusoidal variations modulated on the orbital period as well as large night to night changes in mean intensity. The amplitude of the variations increases with mean intensity while maintaining sinusoidal shape. Considering the set of constraints placed by the X-ray and optical data we argue that V1408 Aql may harbor a very low mass black hole. Optical light curves of UW CrB display partial eclipses of the accretion disk by the donor star that vary both in depth and orbital phase. The new eclipses of UW CrB in conjunction with published eclipse timings are well fitted with a linear ephemeris. We derive an upper limit to the rate of change of the orbital period. By including the newly observed type I bursts with published bursts in our analysis, we find that optical bursts are not observed between orbital phases 0.93 and 0.07, i.e. they are not observable during partial eclipses of the disk.

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Investigation of X-ray timing and spectral properties of ESO 243-49 HLX-1 with long-term Swift monitoring

Monthly Notices of the Royal Astronomical Society ◽

10.1093/mnras/stz3372 ◽

2019 ◽

Vol 491 (4) ◽

pp. 5682-5692 ◽

Cited By ~ 4

Author(s):

Lupin Chun-Che Lin ◽

Chin-Ping Hu ◽

Kwan-Lok Li ◽

Jumpei Takata ◽

David Chien-Chang Yen ◽

...

Keyword(s):

Orbital Period ◽

Power Law Model ◽

Thermal Component ◽

Time Intervals ◽

X Ray ◽

Stochastic Fluctuations ◽

Spectral Behaviour ◽

Increasing Trend ◽

Photon Index

ABSTRACT The long-term Swift monitoring of ESO 243–49 HLX−1 provides an opportunity to investigate the detailed timing and spectral behaviour of this hyperluminous X-ray source. Swift has detected seven outbursts since 2009 mid-August. Using different dynamical timing algorithms, we confirm an increasing trend for the time intervals between outbursts, which is manifest in the delays between the latest outbursts. The X-ray spectra of HLX−1 in quiescence can be described with a single power-law model while the thermal component dominates the X-ray emission during outburst. There is only marginal evidence for photon index (or spectral hardness) changes between quiescent states with about 1σ deviation. With the updated temporal and spectral features, we re-examine different scenarios to explain the origin of the quasi-periodic modulation of HLX−1. A significantly increasing trend without obvious stochastic fluctuations on the time-scale of the detected quasi-period may not fully support an orbital period origin as might be due to mass transfer episodes from a donor star at periastron of an extremely eccentric orbit. The outburst profile seems to be consistent with the effect of tidal-induced-precession of an accretion disc or an oscillating wind scenario in the inner disc. Based on these models, we speculate that the true orbital period is much shorter than the detected quasi-periodicity.

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2PBC J0658.0–1746: a hard X-ray eclipsing polar in the orbital period gap

Monthly Notices of the Royal Astronomical Society ◽

10.1093/mnras/stz1951 ◽

2019 ◽

Vol 489 (1) ◽

pp. 1044-1053 ◽

Cited By ~ 3

Author(s):

F Bernardini ◽

D de Martino ◽

K Mukai ◽

M Falanga ◽

N Masetti

Keyword(s):

Orbital Period ◽

Accretion Rate ◽

Timing Analysis ◽

Spectral Energy Distribution ◽

Cataclysmic Variables ◽

Spectral Energy ◽

X Ray ◽

Mass Accretion Rate ◽

Cyclotron Emission ◽

Long Time

Abstract The hard X-ray source 2PBC J0658.0–1746 was proposed as an eclipsing magnetic cataclysmic variable of the polar type, based on optical follow-ups. We present the first spectral and timing analysis at X-ray energies with XMM–Newton, complemented with archival X-ray, optical, infrared (IR) photometry, and spectroscopy. The X-ray emission shows bright and faint phases and total eclipses recurring every 2.38 h, consistent with optical properties. This firmly identifies 2PBC J0658.0–1746 as an eclipsing polar, the second hard X-ray selected in the orbital period gap. The X-ray orbital modulation changes from cycle-to-cycle and the X-ray flux is strongly variable over the years, implying a non-stationary mass accretion rate both on short and long time-scales. The X-ray eclipses allow to refine the orbital ephemeris with period 0.09913398(4) d, and to constrain the binary inclination $79^{\circ}\lesssim i \lesssim 90^{\circ}$ and the mass ratio 0.18$\lt M_2/M_{\mathrm{ WD}}\lt $0.40. A companion mass M$_{2}=0.2-0.25\rm \, M_{\odot }$ with a radius R$_{2}=0.24-0.26\rm \, R_{\odot }$ and spectral type ∼M4, at D$=209^{+3}_{-2}\rm \, pc$, is derived. A lower limit to the white dwarf mass of $\sim 0.6\, \rm \, M_{\odot }$ is obtained from the X-ray spectrum. An upper limit to the magnetic colatitude, $\beta \lesssim 50^{\circ}$, and a shift in azimuth, $\psi \sim 14^{\circ}$, of the main accreting pole are also estimated. The optical/IR spectral energy distribution shows large excess in the mid-IR due to lower harmonics of cyclotron emission. A high-state mass accretion rate $\rm \, \sim 0.4-1\times 10^{-10}\, M_{\odot }\, yr^{-1}$, lower than that of cataclysmic variables above the gap and close to that of systems below it, is estimated. With 2PBC J0658.0–1746, the number of hard X-ray-selected polars increases to 13 members, suggesting that they are not as rare as previously believed.

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