LOFAR, VLA, AND CHANDRA OBSERVATIONS OF THE TOOTHBRUSH GALAXY CLUSTER

被引:148
作者
van Weeren, R. J. [1 ]
Brunetti, G. [2 ]
Brueggen, M. [3 ]
Andrade-Santos, F. [1 ]
Ogrean, G. A. [1 ]
Williams, W. L. [4 ,5 ,6 ]
Rottgering, H. J. A. [4 ]
Dawson, W. A. [7 ]
Forman, W. R. [1 ]
de Gasperin, F. [3 ,4 ]
Hardcastle, M. J. [6 ]
Jones, C. [1 ]
Miley, G. K. [4 ]
Rafferty, D. A. [3 ]
Rudnick, L. [8 ]
Sabater, J. [9 ]
Sarazin, C. L. [10 ]
Shimwell, T. W. [4 ]
Bonafede, A. [3 ]
Best, P. N. [9 ]
Birzan, L. [3 ]
Cassano, R. [2 ]
Chyzy, K. T. [11 ]
Croston, J. H. [12 ]
Dijkema, T. J. [5 ]
Ensslin, T. [13 ]
Ferrari, C. [14 ]
Heald, G. [5 ,15 ]
Hoeft, M. [16 ]
Horellou, C. [17 ]
Jarvis, M. J. [18 ,19 ]
Kraft, R. P. [1 ]
Mevius, M. [5 ]
Intema, H. T. [4 ,20 ]
Murray, S. S. [1 ,21 ]
Orru, E. [5 ]
Pizzo, R. [5 ]
Sridhar, S. S. [5 ,15 ]
Simionescu, A. [22 ]
Stroe, A. [4 ]
van der Tol, S. [5 ]
White, G. J. [23 ,24 ]
机构
[1] Harvard Smithsonian Ctr Astrophys, 60 Garden St, Cambridge, MA 02138 USA
[2] Ist Radioastron, INAF, Via Gobetti 101, I-40129 Bologna, Italy
[3] Hamburger Sternwarte, Gojenbergsweg 112, D-21029 Hamburg, Germany
[4] Leiden Univ, Leiden Observ, POB 9513, NL-2300 RA Leiden, Netherlands
[5] ASTRON, Postbus 2, NL-7990 AA Dwingeloo, Netherlands
[6] Univ Hertfordshire, Sch Phys Astron & Math, Coll Lane, Hatfield AL10 9AB, Herts, England
[7] Lawrence Livermore Natl Lab, 7000 East Ave, Livermore, CA 94550 USA
[8] Univ Minnesota, Minnesota Inst Astrophys, 116 Church St SE, Minneapolis, MN 55455 USA
[9] Univ Edinburgh, Inst Astron, Royal Observ, Blackford Hill, Edinburgh EH9 3HJ, Midlothian, Scotland
[10] Univ Virginia, Dept Astron, Charlottesville, VA 22904 USA
[11] Jagiellonian Univ, Astron Observ, Ul Orla 171, PL-30244 Krakow, Poland
[12] Univ Southampton, Sch Phys & Astron, Southampton SO17 1BJ, Hants, England
[13] Max Planck Inst Astrophys, Karl Schwarzschildstr 1, D-85741 Garching, Germany
[14] Univ Cote Azur, Observ Cote Azur, CNRS, Lab Lagrange, Blvd Observ,CS 34229, F-06304 Nice 4, France
[15] Univ Groningen, Kapteyn Astron Inst, POB 800, NL-9700 AV Groningen, Netherlands
[16] Thuringer Landessternwarte Tautenburg, Sternwarte 5, D-07778 Tautenburg, Germany
[17] Chalmers, Onsala Space Observ, Dept Earth & Space Sci, SE-43992 Onsala, Sweden
[18] Oxford Astrophys, Dept Phys, Keble Rd, Oxford OX1 3RH, England
[19] Univ Western Cape, ZA-7535 Bellville, South Africa
[20] Natl Radio Astron Observ, 1003 Lopezville Rd, Socorro, NM 87801 USA
[21] Johns Hopkins Univ, Dept Phys & Astron, 3400 North Charles St, Baltimore, MD 21218 USA
[22] JAXA, ISAS, Chuo Ku, 3-1-1 Yoshinodai, Sagamihara, Kanagawa 2525210, Japan
[23] Open Univ, Dept Phys Sci, Walton Hall, Milton Keynes MK7 6AA, Bucks, England
[24] Rutherford Appleton Lab, RALSpace, Didcot OX11 0NL, Oxon, England
来源
ASTROPHYSICAL JOURNAL | 2016年 / 818卷 / 02期
基金
美国国家航空航天局;
关键词
galaxies: clusters: individual (RX J0603.3+4214); galaxies: clusters: intracluster medium; large-scale structure of universe; radiation mechanisms: non-thermal; X-rays: galaxies: clusters; COSMOLOGICAL SHOCK-WAVES; DIFFUSE RADIO-EMISSION; LARGE-SCALE STRUCTURE; NONTHERMAL ELECTRON ACCELERATION; COSMIC-RAY PROTONS; X-RAY; COMA CLUSTER; LOW-FREQUENCY; BOW SHOCK; GAMMA-RAY;
D O I
10.3847/0004-637X/818/2/204
中图分类号
P1 [天文学];
学科分类号
0704 ;
摘要
We present deep LOFAR observations between 120 and 181 MHz of the "Toothbrush" (RX J0603.3+ 4214), a cluster that contains one of the brightest radio relic sources known. Our LOFAR observations exploit a new and novel calibration scheme to probe 10 times deeper than any previous study in this relatively unexplored part of the spectrum. The LOFAR observations, when combined with VLA, GMRT, and Chandra X-ray data, provide new information about the nature of cluster merger shocks and their role in re-accelerating relativistic particles. We derive a spectral index of alpha = -0.8 +/- 0.1 at the northern edge of the main radio relic, steepening toward the south to alpha approximate to-2. The spectral index of the radio halo is remarkably uniform (alpha = -1.16, with an intrinsic scatter of <= 0.04). The observed radio relic spectral index gives a Mach number of M = 2.8(-0.3)(+0.5), assuming diffusive shock acceleration. However, the gas density jump at the northern edge of the large radio relic implies a much weaker shock (M approximate to 1.2, with an upper limit of M approximate to 1.5). The discrepancy between the Mach numbers calculated from the radio and X-rays can be explained if either (i) the relic traces a complex shock surface along the line of sight, or (ii) if the radio relic emission is produced by a re-accelerated population of fossil particles from a radio galaxy. Our results highlight the need for additional theoretical work and numerical simulations of particle acceleration and re-acceleration at cluster merger shocks.
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页数:19
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