Browse > Article
http://dx.doi.org/10.5303/JKAS.2019.52.1.1

STUDY OF ULTRALUMINOUS X-RAY SOURCES IN SOME NEARBY GALAXIES  

Singha, Akram Chandrajit (Department of Physics, Assam University)
Devi, A Senorita (Department of Physics, Assam University)
Publication Information
Journal of The Korean Astronomical Society / v.52, no.1, 2019 , pp. 1-9 More about this Journal
Abstract
We present the results of the spectral and temporal analysis of eight X-ray point sources in five nearby (distance < 20 Mpc) galaxies observed with Chandra. For spectral analysis, an absorbed powerlaw and an absorbed diskblackbody were used as empirical models. Six sources were found to be equally fitted by both the models while two sources were better fitted by the powerlaw model. Based on model parameters, we estimate the X-ray luminosity of these sources in the energy range 0.3 - 10.0 keV, to be of the order of ${\sim}10^{39}ergs\;s^{-1}$ except for one source (X-8) with $L_X>10^{40}ergs\;s^{-1}$. Five of these maybe classified as Ultraluminous X-ray sources (ULXs) with powerlaw photon index within the range, ${\Gamma}{\sim}1.63-2.63$ while the inner disk temperature, kT ~ 0.68 - 1.93 keV, when fitted with the disk blackbody model. The black hole masses harboured by the X-ray point sources were estimated using the disk blackbody model to be in the stellar mass range, however, the black hole mass of one source (X-6) lies within the range $68.37M_{\odot}{\leq}M_{BH}{\leq}176.32M_{\odot}$, which at the upper limit comes under the Intermediate mass black hole range. But if the emission is considered to be beamed by a factor ~ 5, the black hole mass reduces to ${\sim}75M_{\odot}$. The timing analysis of these sources does not show the presence of any short term variations in the kiloseconds timescales.
Keywords
galaxies: general; X-rays: binaries;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Devi, A. S., Misra, R., Agarwal, V. K., et al. 2007, The Dependence of the Estimated Luminosities of Ultraluminous X-Ray Sources on Spectral Models, ApJ, 664, 458   DOI
2 Devi, A. S, Misra, R., Shanthi, K., et al. 2008, The Spectral and Temporal Properties of an Ultraluminous X-Ray Source in NGC 6946, ApJ, 682, 218   DOI
3 Devi, A. S., & Singh, K. Y. 2014, Discovery of an Ultra-Luminous X-Ray Source Candidate, ULX (X-8) in NGC 3384 with Chandra, Ap&SS, 354, 2091
4 Earnshaw, H. M., Roberts, T. P., Heil, L. M., et al. 2016, A Variable ULX and Possible IMBH Candidate in M51a, MNRAS, 456, 3840   DOI
5 Fabbiano, G. 1989, X-Rays from Normal Galaxies, Annu. Rev. Astron. Astrophys., 27, 87   DOI
6 Godet, O., Plazolles, B., Kawaguchi, T., et al. 2012, Investigating Slim Disk Solutions for HLX-1 in ESO 243-49, ApJ, 752, 12   DOI
7 Farrell, S. A., Webb, N. A., Barret, D., Godet, O., & Rodrigues, J. M. 2009, An Intermediate-Mass Black Hole of over 500 Solar Masses in the Galaxy ESO243-49, Nature, 460, 73   DOI
8 Kaaret, P., Feng, H., & Roberts, T. P. 2017, Ultraluminous X-Ray Sources, Annu. Rev. Astron. Astrophys., 55, 303   DOI
9 Kaaret, P., Prestwich, A. H., Zezas, A., et al. 2001, Chandra High-Resolution Camera Observations of the Luminous X-Ray Source in the Starburst Galaxy M82, MNRAS, 321, L29   DOI
10 Kilgard, R. E., Cowan, J. J., Garcia, M. R., et al. 2005, A Chandra Survey of Nearby Spiral Galaxies. I. Point Source Catalogs, ApJS, 159, 214   DOI
11 King, A. R., Davies, M. B., Ward, M. J., Fabbiano, G. & Elvis, M. 2001, ApJ, 552, L109   DOI
12 Kording, E., Falcke, H., & Markoff, S. 2002, Population X: Are the Super-Eddington X-Ray Sources Beamed Jets in Microblazars or Intermediate Mass Black Holes?, A&A, 382, L13   DOI
13 Liu, J., & Bregman, N. 2005, Ultraluminous X-Ray Sources in Nearby Galaxies from ROSAT High Resolution Imager Observations I. Data Analysis, ApJS, 157, 59   DOI
14 Liu, J. 2011, Chandra ACIS Survey of X-Ray Point Sources in 383 Nearby Galaxies. I. The Source Catalog, Astrophys. J. Suppl. Ser., 192, 55
15 Makishima, K., Kubota, A., Mizuno, T., et al. 2000, The Nature of Ultraluminous Compact X-Ray Sources in Nearby Spiral Galaxies, ApJ, 535, 632   DOI
16 Markoff, S., Falcke, H., & Fende,r R. 2001, A Jet Model for the Broadband Spectrum of XTE J1118+ 480-Synchrotron Emission from Radio to X-Rays in the Low/Hard Spectral State, A&A, 372, L25   DOI
17 Matonick, D. M. & Fesen, R. A. 1997, Optically Identified Supernova Remnants in the Nearby Spiral Galaxies NGC 5204, NGC 5585, NGC 6946, M81, and M101, Ap&SS, 112, 49
18 Matsumoto, H., Tatsuya, I., Tsuru, T. G., et al. 2004, Peculiar Characteristics of the Hyper-Luminous X-Ray Source M82 X-1, Progress of Theoretical Physics Supplement, 155, 379   DOI
19 Middleton, M. J., Heil, L., Pintore, F., Walton, D. J., & Roberts, T. P. 2015, A Spectral-Timing Model for ULXs in the Supercritical Regime, MNRAS, 447, 3243   DOI
20 Middleton, M. J., Miller-Jones, J. C. A., Markoff, S., et al. 2013, Bright Radio Emission from an Ultraluminous Stellar-Mass Microquasar in M 31, Nature, 493, 187   DOI
21 Middleton, M. J., Sutton, A. D., Roberts, T. P., et al. 2012, The Missing Link: A Low-Mass X-Ray Binary in M31 Seen as an Ultraluminous X-Ray Source, MNRAS, 420, 2969   DOI
22 Pasham, D. R., Strohmayer, T. E., & Mushotzky, R. F. 2014, A 400-Solar-Mass Black Hole in the Galaxy M82, Nature, 513, 74   DOI
23 Miller, J. M., Fabbiano, G., Miller, M. C., et al. 2003, X-Ray Spectroscopic Evidence for Intermediate-Mass Black Holes: Cool Accretion Disks in Two Ultraluminous X-Ray Sources, ApJ, 585, L37   DOI
24 Miller, J. M., Fabian, A. C., & Miller, M. C. 2004, A Comparison of Intermediate-Mass Black Hole Candidate Ultraluminous X-Ray Sources and Stellar-Mass Black Holes, ApJ, 614, L117   DOI
25 Misra, R., & Sriram, K. 2003, ApJ, 584, 981   DOI
26 Roberts, T. P., Middleton, M. J., Sutton, A. D., Mezcua, M., Walton, D. J., & Heil, L. M. 2016, ULX Behaviour: The Ultraluminous State, Winds and Interesting Anomalies, Astronomische Nachrichten, 337, 534   DOI
27 Saha, A., Thim, F., Tammann, G. A., et al. 2006, Cepheid Distances to SNe Ia Host Galaxies Based on a Revised Photometric Zero Point of the HST WFPC2 and New PL Relations and Metallicity Corrections, ApJS, 165, 108   DOI
28 Sanders, D. B., Mazzarella, J. M., Kim, D.-C., et al. 2003, The IRAS Revised Bright Galaxy Sample, ApJ, 126, 1607   DOI
29 Singha, A. C., & Devi, A. S. 2017, Study of X-Ray Point Sources in NGC 5643 and NGC 7457 with Chandra, Ap&SS, 362, 223   DOI
30 Sivakoff, G. R., Sarazin, C. L. & Irwin, J. A. 2003, Chandra Observations of Low-Mass X-Ray Binaries and Diffuse Gas in the Early-Type Galaxies NGC 4365 and NGC 4382 (M85), ApJ, 599, 218   DOI
31 Sutton, A. D., Roberts, T. P., Gladstone, J. C., et al. 2013, A Bright Ultraluminous X-Ray Source in NGC 5907, MNRAS, 434, 1702   DOI
32 Urquhart, R., Soria, R., Johnston, H., Pakull, M., Motch, C., Schwope, A., Miller-Jones, J., & Anderson, G. 2018, Multiband Counterparts of Two Eclipsing Ultraluminous X-Ray Sources in M51, MNRAS, 475, 3561   DOI
33 Sutton, A. D., Roberts, T. P., Walton, D. J., et al. 2012, The Most Extreme Ultraluminous X-Ray Sources: Evidence for Intermediate-Mass Black Holes?, MNRAS, 423, 1154   DOI
34 Swartz, D. A., Ghosh, K. K., Tennant, A. F., et al. 2004, The Ultraluminous X-Ray Source Population from the Chandra Archive of Galaxies, ApJS, 154, 519   DOI
35 Swartz, D. A., Soria, R., Tennant, A. F., & Yukita, M. 2011, A Complete Sample of Ultraluminous X-Ray Source Host Galaxies, ApJ, 741, 49   DOI
36 Montenegro, L. V., Bosma, A., & Athanassoula, E. 1997, The Ringed, Warped and Isolated Galaxy NGC 6015, A&A, 321, 754