Your search keyword '"X-ray binary stars"' showing total 9 results

1. Simultaneous NICER and NuSTAR Observations of the Ultracompact X-Ray Binary 4U 0614+091

Author

Moutard, D. L., Ludlam, R. M., García, J. A., Altamirano, D., Buisson, D. J. K., Cackett, E. M., Chenevez, J., Degenaar, N., Fabian, A. C., Homan, J., Jaodand, A., Pike, S. N., Shaw, A. W., Strohmayer, T. E., Tomsick, J. A., Coughenour, B. M., Moutard, D. L., Ludlam, R. M., García, J. A., Altamirano, D., Buisson, D. J. K., Cackett, E. M., Chenevez, J., Degenaar, N., Fabian, A. C., Homan, J., Jaodand, A., Pike, S. N., Shaw, A. W., Strohmayer, T. E., Tomsick, J. A., and Coughenour, B. M.

Abstract

We present the first joint NuSTAR and NICER observations of the ultracompact X-ray binary 4U 0614+091. This source shows quasiperiodic flux variations on the timescale of ∼days. We use reflection modeling techniques to study various components of the accretion system as the flux varies. We find that the flux of the reflected emission and the thermal components representing the disk and the compact object trend closely with the overall flux. However, the flux of the power-law component representing the illuminating X-ray corona scales in the opposite direction, increasing as the total flux decreases. During the lowest flux observation, we see evidence of accretion disk truncation from roughly 6 gravitational radii to 11.5 gravitational radii. This is potentially analogous to the truncation seen in black hole low-mass X-ray binaries, which tends to occur during the low/hard state at sufficiently low Eddington ratios.

Published

2023

2. Accreting on the Edge: A Luminosity-dependent Cyclotron Line in the Be/X-Ray Binary 2S 1553-542 Accompanied by Accretion Regimes Transition

Author

Malacaria, C., Bhargava, Y., Coley, Joel B., Ducci, L., Pradhan, P., Ballhausen, R., Fuerst, F., Islam, N., Jaisawal, G. K., Jenke, P., Kretschmar, P., Kreykenbohm, I., Pottschmidt, K., Sokolova-Lapa, E., Staubert, R., Wilms, J., Wilson-Hodge, C. A., Wolff, Michael T., Malacaria, C., Bhargava, Y., Coley, Joel B., Ducci, L., Pradhan, P., Ballhausen, R., Fuerst, F., Islam, N., Jaisawal, G. K., Jenke, P., Kretschmar, P., Kreykenbohm, I., Pottschmidt, K., Sokolova-Lapa, E., Staubert, R., Wilms, J., Wilson-Hodge, C. A., and Wolff, Michael T.

Abstract

Accreting X-ray pulsars undergo luminous X-ray outbursts during which the luminosity-dependent spectral and timing features of the neutron star's emission can be analyzed in detail, thus shedding light on the accretion regime at work. We took advantage of a monitoring campaign that was performed with NuSTAR, Swift/XRT, AstroSat and NICER to follow the Be/X-ray Binary 2S 1553-542 along one of its rare outbursts, and thus trace its spectral and timing evolution. We report the discovery of a luminosity-dependent cyclotron line energy for the first time in this source. The pulse profiles and pulsed fraction also show variability along the outburst, which is consistent with the interpretation that the source transitions from the subcritical to the supercritical accretion regime, separated by a critical luminosity of Lcrit ≈ 4 × 1037 erg s−1.

Published

2022

3. X-Ray Pulsar XTE J1858+034 : Discovery of the Cyclotron Line and the Revised Optical Identification

Author

Tsygankov, Sergey S., Lutovinov, Alexander A., Molkov, Sergey V., Djupvik, Anlaug A., Karasev, Dmitri I., Doroshenko, Victor, Mushtukov, Alexander A., Malacaria, Christian, Kretschmar, Peter, Poutanen, Juri, Tsygankov, Sergey S., Lutovinov, Alexander A., Molkov, Sergey V., Djupvik, Anlaug A., Karasev, Dmitri I., Doroshenko, Victor, Mushtukov, Alexander A., Malacaria, Christian, Kretschmar, Peter, and Poutanen, Juri

Abstract

We present the results of a detailed investigation of the poorly studied X-ray pulsar (XRP) XTE J1858+034 based on the data obtained with the NuSTAR observatory during the outburst of the source in 2019. The spectral analysis resulted in the discovery of a cyclotron absorption feature in the source spectrum at similar to 48 keV in both the pulse phase-averaged and resolved spectra. Accurate X-ray localization of the source using the NuSTAR and Chandra observatories allowed us to accurately determine the position of the X-ray source and identify the optical companion of the pulsar. The analysis of the counterpart properties suggested that the system is likely a symbiotic binary hosting an XRP and a late-type companion star of the K-M classes rather than a Be X-ray binary as previously suggested.

Published

2021

4. X-Ray Pulsar XTE J1858+034 : Discovery of the Cyclotron Line and the Revised Optical Identification

Author

Tsygankov, Sergey S., Lutovinov, Alexander A., Molkov, Sergey V., Djupvik, Anlaug A., Karasev, Dmitri I., Doroshenko, Victor, Mushtukov, Alexander A., Malacaria, Christian, Kretschmar, Peter, Poutanen, Juri, Tsygankov, Sergey S., Lutovinov, Alexander A., Molkov, Sergey V., Djupvik, Anlaug A., Karasev, Dmitri I., Doroshenko, Victor, Mushtukov, Alexander A., Malacaria, Christian, Kretschmar, Peter, and Poutanen, Juri

Abstract

We present the results of a detailed investigation of the poorly studied X-ray pulsar (XRP) XTE J1858+034 based on the data obtained with the NuSTAR observatory during the outburst of the source in 2019. The spectral analysis resulted in the discovery of a cyclotron absorption feature in the source spectrum at similar to 48 keV in both the pulse phase-averaged and resolved spectra. Accurate X-ray localization of the source using the NuSTAR and Chandra observatories allowed us to accurately determine the position of the X-ray source and identify the optical companion of the pulsar. The analysis of the counterpart properties suggested that the system is likely a symbiotic binary hosting an XRP and a late-type companion star of the K-M classes rather than a Be X-ray binary as previously suggested., QC 20210401

Published

2021

5. Does the disk in the hard state of XTE J1752-223 extend to the innermost stable circular orbit?

Author

Universitat Politècnica de Catalunya. Departament de Física, Zdziarski, Andrzej A., Marco, Barbara de, Universitat Politècnica de Catalunya. Departament de Física, Zdziarski, Andrzej A., and Marco, Barbara de

Abstract

The accreting black hole binary XTE J1752–223 was observed in a stable hard state for 25 days by the Rossi X-ray Timing Explorer (RXTE), yielding a 3–140 keV spectrum of unprecedented statistical quality. Its published model required a single-Comptonization spectrum reflecting from a disk close to the innermost stable circular orbit. We studied that model as well as a number of other single-Comptonization models (yielding similarly low inner radii), but found they violate a number of basic physical constraints, e.g., their compactness is much above the maximum allowed by pair equilibrium. We also studied the contemporaneous 0.55–6 keV spectrum from the Swift/X-ray Telescope and found it well fitted by an absorbed power law and a disk blackbody with the innermost temperature of 0.1 keV. The normalization of the disk blackbody corresponds to an inner radius of ¿20 gravitational radii and its temperature, to irradiation of the truncated disk by a hot inner flow. We have also developed a Comptonization/ reflection model including the disk irradiation and intrinsic dissipation, but found that it does not yield any satisfactory fits. On the other hand, we found that the ¿10 keV band from RXTE is much better fitted by a reflection from a disk with the inner radius ¿100 gravitational radii, which model then underpredicts the spectrum at >10 keV by <10%. We argue that the most plausible explanation of the above results is inhomogeneity of the source, with the local spectra hardening with the decreasing radius. Our results support the presence of a complex Comptonization region and a large disk truncation radius in this source, Postprint (author's final draft)

Published

2021

6. Relativistic X-Ray Jets from the Black Hole X-Ray Binary MAXI J1820+070

Author

Espinasse, M., Corbel, S., Kaaret, P., Tremou, E., Migliori, G., Plotkin, Richard, Bright, J., Tomsick, J., Tzioumis, A., Fender, R., Orosz, J.A., Gallo, E., Homan, J., Jonker, P.G., Miller-Jones, James, Russell, D.M., Motta, S., Espinasse, M., Corbel, S., Kaaret, P., Tremou, E., Migliori, G., Plotkin, Richard, Bright, J., Tomsick, J., Tzioumis, A., Fender, R., Orosz, J.A., Gallo, E., Homan, J., Jonker, P.G., Miller-Jones, James, Russell, D.M., and Motta, S.

Abstract

The black hole MAXI J1820+070 was discovered during its 2018 outburst and was extensively monitored across the electromagnetic spectrum. Following the detection of relativistic radio jets, we obtained four Chandra X-ray observations taken between 2018 November and 2019 June, along with radio observations conducted with the Very Large Array and MeerKAT arrays. We report the discovery of X-ray sources associated with the radio jets moving at relativistic velocities with a possible deceleration at late times. The broadband spectra of the jets are consistent with synchrotron radiation from particles accelerated up to very high energies (>10 TeV) by shocks produced by the jets interacting with the interstellar medium. The minimal internal energy estimated from the X-ray observations for the jets is ∼1041 erg, significantly larger than the energy calculated from the radio flare alone, suggesting most of the energy is possibly not radiated at small scales but released through late-time interactions.

Published

2020

7. The MOSDEF Survey: The Metallicity Dependence of X-Ray Binary Populations at z ∼ 2

Author

Fornasini, FM, Fornasini, FM, Kriek, M, Sanders, RL, Shivaei, I, Civano, F, Reddy, NA, Shapley, AE, Coil, AL, Mobasher, B, Siana, B, Aird, J, Azadi, M, Freeman, WR, Leung, GCK, Price, SH, Fetherolf, T, Zick, T, Barro, G, Fornasini, FM, Fornasini, FM, Kriek, M, Sanders, RL, Shivaei, I, Civano, F, Reddy, NA, Shapley, AE, Coil, AL, Mobasher, B, Siana, B, Aird, J, Azadi, M, Freeman, WR, Leung, GCK, Price, SH, Fetherolf, T, Zick, T, and Barro, G

Abstract

Population synthesis models predict that high-mass X-ray binary (HMXB) populations produced in low-metallicity environments should be more X-ray luminous, a trend supported by studies of nearby galaxies. This trend may be responsible for the observed increase of the X-ray luminosity (L X) per star formation rate (SFR) with redshift due to the decrease of metallicity (Z) at fixed stellar mass as a function of redshift. To test this hypothesis, we use a sample of 79 z ∼ 2 star-forming galaxies with oxygen abundance measurements from the MOSDEF survey, which obtained rest-frame optical spectra for ∼1500 galaxies in the CANDELS fields at 1.37 < z < 3.80. Using Chandra data from the Chandra AEGIS-X Deep, Chandra Deep Field North, and Chandra Deep Field South surveys, we stack the X-ray data at the galaxy locations in bins of redshift and Z because the galaxies are too faint to be individually detected. In agreement with previous studies, the average L X/SFR of our z ∼ 2 galaxy sample is enhanced by ≈0.4-0.8 dex relative to local HMXB L X-SFR scaling relations. Splitting our sample by Z, we find that L X/SFR and Z are anticorrelated with 97% confidence. This observed Z dependence for HMXB-dominated galaxies is consistent with both the local L X-SFR-Z relation and a subset of population synthesis models. Although the statistical significance of the observed trends is weak owing to the low X-ray statistics, these results constitute the first direct evidence connecting the redshift evolution of L X/SFR and the Z dependence of HMXBs.

Published

2019

8. The MOSDEF Survey: The Metallicity Dependence of X-Ray Binary Populations at z ∼ 2

Author

Fornasini, FM, Fornasini, FM, Kriek, M, Sanders, RL, Shivaei, I, Civano, F, Reddy, NA, Shapley, AE, Coil, AL, Mobasher, B, Siana, B, Aird, J, Azadi, M, Freeman, WR, Leung, GCK, Price, SH, Fetherolf, T, Zick, T, Barro, G, Fornasini, FM, Fornasini, FM, Kriek, M, Sanders, RL, Shivaei, I, Civano, F, Reddy, NA, Shapley, AE, Coil, AL, Mobasher, B, Siana, B, Aird, J, Azadi, M, Freeman, WR, Leung, GCK, Price, SH, Fetherolf, T, Zick, T, and Barro, G

Abstract

Population synthesis models predict that high-mass X-ray binary (HMXB) populations produced in low-metallicity environments should be more X-ray luminous, a trend supported by studies of nearby galaxies. This trend may be responsible for the observed increase of the X-ray luminosity (L X) per star formation rate (SFR) with redshift due to the decrease of metallicity (Z) at fixed stellar mass as a function of redshift. To test this hypothesis, we use a sample of 79 z ∼ 2 star-forming galaxies with oxygen abundance measurements from the MOSDEF survey, which obtained rest-frame optical spectra for ∼1500 galaxies in the CANDELS fields at 1.37 < z < 3.80. Using Chandra data from the Chandra AEGIS-X Deep, Chandra Deep Field North, and Chandra Deep Field South surveys, we stack the X-ray data at the galaxy locations in bins of redshift and Z because the galaxies are too faint to be individually detected. In agreement with previous studies, the average L X/SFR of our z ∼ 2 galaxy sample is enhanced by ≈0.4-0.8 dex relative to local HMXB L X-SFR scaling relations. Splitting our sample by Z, we find that L X/SFR and Z are anticorrelated with 97% confidence. This observed Z dependence for HMXB-dominated galaxies is consistent with both the local L X-SFR-Z relation and a subset of population synthesis models. Although the statistical significance of the observed trends is weak owing to the low X-ray statistics, these results constitute the first direct evidence connecting the redshift evolution of L X/SFR and the Z dependence of HMXBs.

Published

2019

9. NuSTARand Swift observations of the very high state in GX 339-4: Weighing the black hole with X-rays

Author

Parker, M. L., Tomsick, J. A., Kennea, J. A., Miller, J. M., Harrison, F. A., Barret, D., Boggs, S. E., Christensen, Finn Erland, Craig, W. W., Fabian, A. C., Fürst, F., Grinberg, V., Hailey, C. J., Romano, P., Stern, D., Walton, D. J., Zhang, W. W., Parker, M. L., Tomsick, J. A., Kennea, J. A., Miller, J. M., Harrison, F. A., Barret, D., Boggs, S. E., Christensen, Finn Erland, Craig, W. W., Fabian, A. C., Fürst, F., Grinberg, V., Hailey, C. J., Romano, P., Stern, D., Walton, D. J., and Zhang, W. W.

Abstract

We present results from spectral fitting of the very high state of GX 339-4 with Nuclear Spectroscopic Telescope Array (NuSTAR) and Swift. We use relativistic reflection modeling to measure the spin of the black hole and inclination of the inner disk and find a spin of a = 0.95(-0.08)(+0.02) and inclination of 30 degrees +/- 1 degrees (statistical errors). These values agree well with previous results from reflection modeling. With the exceptional sensitivity of NuSTAR at the high-energy side of the disk spectrum, we are able to constrain multiple physical parameters simultaneously using continuum fitting. By using the constraints from reflection as input for the continuum fitting method, we invert the conventional fitting procedure to estimate the mass and distance of GX 339-4 using just the X-ray spectrum, finding a mass of 9.0(-1.2)(+1.6) M-circle dot and distance of 8.4 +/- 0.9 kpc (statistical errors).

Published

2016