2011MNRAS.417.2166S

Query : 2011MNRAS.417.2166S

2011MNRAS.417.2166S - Mon. Not. R. Astron. Soc., 417, 2166-2196 (2011/November-1)

Homogeneous studies of transiting extrasolar planets – IV. Thirty systems with space-based light curves.

SOUTHWORTH J.

Abstract (from CDS):

I calculate the physical properties of 32 transiting extrasolar planet and brown-dwarf systems from existing photometric observations and measured spectroscopic parameters. The systems studied include 15 observed by the CoRoT satellite, 10 by Kepler and five by the Deep Impact spacecraft. Inclusion of the objects studied in previous papers leads to a sample of 58 transiting systems with homogeneously measured properties. The Kepler data include observations from Quarter 2, and my analyses of several of the systems are the first to be based on short-cadence data from this satellite.

The light curves are modelled using the JKTEBOP code, with attention paid to the treatment of limb darkening, contaminating light, orbital eccentricity, correlated noise and numerical integration over long exposure times. The physical properties are derived from the light-curve parameters, spectroscopic characteristics of the host star and constraints from five sets of theoretical stellar model predictions. An alternative approach using a calibration from eclipsing binary star systems is explored and found to give comparable results whilst imposing a much smaller computational burden.

My results are in good agreement with published properties for most of the transiting systems, but discrepancies are identified for CoRoT-5, CoRoT-8, CoRoT-13, Kepler-5 and Kepler-7. Many of the error bars quoted in the literature are underestimated. Refined orbital ephemerides are given for CoRoT-8 and for the Kepler planets. Asteroseismic constraints on the density of the host stars are in good agreement with the photometric equivalents for HD 17156 and TrES-2, but not for HAT-P-7 and HAT-P-11.

Complete error budgets are generated for each transiting system, allowing identification of the observations best-suited to improve measurements of their physical properties. Whilst most systems would benefit from further photometry and spectroscopy, HD 17156, HD 80606, HAT-P-7 and TrES-2 are now extremely well characterized. HAT-P-11 is an exceptional candidate for studying starspots. The orbital ephemerides of some transiting systems are becoming uncertain and they should be re-observed in the near future.

The primary results from the current work and from previous papers in the series have been placed in an online catalogue, from where they can be obtained in a range of formats for reference and further study. TEPCat is available at


Abstract Copyright: 2011 The Author. Monthly Notices of the Royal Astronomical Society2011 RAS

Journal keyword(s): binaries: eclipsing - binaries: spectroscopic - stars: fundamental parameters - planetary systems

Simbad objects: 80

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Number of rows : 80
N Identifier Otype ICRS (J2000)
RA 		ICRS (J2000)
DEC 		Mag U Mag B Mag V Mag R Mag I Sp type #ref
1850 - 2024 		#notes
1 WASP-1 V* 00 20 40.0745768856 +31 59 23.954809596   12.06 11.31     F7V 121 1
2 HD 10069 SB* 01 37 25.0332798696 -45 40 40.374717456   9.74 9.30     F6IV/V 230 1
3 HD 17156 PM* 02 49 44.4871034544 +71 45 11.629235988   8.78 8.16     F9V 174 2
4 WASP-22 EB* 03 31 16.3267124400 -23 49 10.840600632   12.38 11.99 11.41   G 66 1
5 BD+57 793 * 04 21 52.7048156328 +57 49 01.889294952   10.27 9.85     F5V 152 2
6 RX J0528.3+0338 EB* 05 28 20.8305520540 +03 38 32.608040911           ~ 27 0
7 CoRoT-15 EB* 06 28 27.8224597512 +06 11 10.451925852   17.01 16.00 15.81 14.83 F7V 19 1
8 CoRoT-12 * 06 43 03.7630314144 -01 17 47.144066352   16.343 15.515     G2V 35 1
9 CoRoT-7 * 06 43 49.4690164104 -01 03 46.826642700   12.78 11.73 11.36 10.87 K0V 211 1
10 CoRoT-7c Pl 06 43 49.4690164104 -01 03 46.826642700           ~ 47 1
11 CoRoT-7b Pl 06 43 49.4690164104 -01 03 46.826642700           ~ 402 1
12 CoRoT-7d Pl? 06 43 49.4690164104 -01 03 46.826642700           ~ 15 1
13 CoRoT-5 EB* 06 45 06.5406550272 +00 48 54.905787036   14.67 14.018 13.82 13.29 F9V 45 1
14 CoRoT-1b Pl 06 48 19.1723766840 -03 06 07.710745140           ~ 181 1
15 CoRoT-1 EB* 06 48 19.1723766840 -03 06 07.710745140     13.6 13.44 12.88 G0V 129 2
16 CoRoT-4 * 06 48 46.7134456728 -00 40 21.969631416       13.42   F0V 71 1
17 CoRoT-13b Pl 06 50 53.0726565720 -05 05 11.190799896           ~ 37 1
18 CoRoT-13 EB* 06 50 53.0726565720 -05 05 11.190799896   15.33 15.039 15.17 14.19 G0V 33 1
19 CoRoT-14 * 06 53 41.8087553160 -05 32 09.683309760   16.891 16.033 16.03 14.91 ~ 26 2
20 XO-4 * 07 21 33.1602434760 +58 16 05.109533364   11.15 10.81     F5 63 1
21 XO-5 * 07 46 51.9614762400 +39 05 40.460854956     12.1 11.95   G7 51 1
22 BD+50 1471 PM* 07 48 06.4723053776 +50 13 32.920598923   12.002 11.138 10.669 10.243 G9V 173 1
23 HD 80606 PM* 09 22 37.5768032712 +50 36 13.435326684   9.78 9.00     G8V 330 2
24 HD 80606b Pl 09 22 37.5768032712 +50 36 13.435326684           ~ 328 1
25 OGLE-TR 211 * 10 40 14.3828284632 -62 27 20.018236464       15.24   ~ 36 1
26 OGLE-TR 132 V* 10 50 34.5943868112 -61 57 26.138690064         15.72 F 96 1
27 OGLE-TR 113 SB* 10 52 24.2810533560 -61 26 48.845675976     16.08 15.407 14.42 K 118 1
28 OGLE-TR 111 V* 10 53 17.8069115424 -61 24 20.607791112     16.96 16.05 15.55 G 93 1
29 CD-23 9677 EB* 11 01 35.8978277184 -23 51 38.386984896   11.05 10.28 10.21 9.66 ~ 61 1
30 OGLE2-TR L9 * 11 07 55.1808382920 -61 08 46.537684260       14.60   F3 35 1
31 OGLE-TR 182 * 11 09 18.7248783144 -61 05 42.962710884     16.84 16.37   ~ 36 1
32 Ross 905 PM* 11 42 11.0933350978 +26 42 23.650782778   12.06 10.613 10.272 8.24 M3V 645 1
33 BD+36 2593 * 15 19 57.9203617176 +36 13 46.738078788   11.83 11.12     F 108 1
34 CD-27 10695 * 15 59 50.9491505016 -28 03 42.312819096   11.83 11.59 11.31 10.92 F4 120 1
35 BD+28 2507 V* 16 02 11.8462322592 +28 10 10.420201452   11.88 11.25     G1V 104 1
36 HD 147506 * 16 20 36.3576063720 +41 02 53.106772488   9.15 8.69     F8V 174 2
37 HD 149026 PM* 16 30 29.6185771608 +38 20 50.308980864   8.75 8.14     G0IV 235 1
38 OGLE-TR 10 EB* 17 51 28.2593510544 -29 52 35.231024064     15.780 16.193 14.92 G2V 90 1
39 1SWASP J175207.01+373246.3 V* 17 52 07.0184259768 +37 32 46.237377840   13.114 12.402 12.06 11.603 G 76 1
40 TYC 2620-648-1 * 17 53 13.0489562760 +37 12 42.586493328   12.112 11.592     F8 46 2
41 OGLE-TR 56 EB* 17 56 35.5016678064 -29 32 21.479240220     16.560 16.07 15.30 ~ 169 1
42 BD+35 3293 V* 18 34 31.6252443960 +35 39 41.491899468   11.07 10.63 10.52   F7V 128 1
43 CoRoT-11 EB* 18 42 44.9499236256 +05 56 15.652972716   13.73 12.939     F6V 52 1
44 CoRoT-9 * 18 43 08.8100358120 +06 12 14.913236808   14.57 13.46 13.75   G3V 46 1
45 CoRoT-6 * 18 44 17.4078666144 +06 39 47.513042100   14.68 13.80 14.18   F5V 49 1
46 Kepler-8 Ro* 18 45 09.1489991376 +42 27 03.891327156           F6V 107 1
47 Kepler-9d Pl 19 02 17.7544327200 +38 24 03.176851896           ~ 58 1
48 Kepler-9c Pl 19 02 17.7544327200 +38 24 03.176851896           ~ 99 1
49 Kepler-4 Er* 19 02 27.6979514832 +50 08 08.703945600   13.114 12.293 12.195   G0 104 1
50 Kepler-10c Pl 19 02 43.0613892904 +50 14 28.701617339           ~ 120 1
51 V* V672 Lyr V* 19 04 09.8515616256 +36 37 57.446680296   12.35 11.42     K0V 107 1
52 Kepler-1 EB* 19 07 14.0375836512 +49 18 59.091482160   11.85 11.25     G0V 176 2
53 G 205-57 EB* 19 10 14.284032 +46 57 24.10632   14.93 13.38 13.01   M1 60 0
54 Kepler-7 Er* 19 14 19.5623105760 +41 05 23.367379128           G0 112 1
55 CoRoT-10 V* 19 24 15.2869439208 +00 44 46.002641280   16.676 15.216 15.48 13.64 K1V 38 1
56 CoRoT-8 * 19 26 21.2425572360 +01 25 35.177500524   16.096 14.797 14.267 13.26 K1V 35 1
57 CoRoT-2 * 19 27 06.4944378024 +01 23 01.359897468   13.422 12.568 12.204 11.49 G7V+K9V 249 2
58 CoRoT-3 EB* 19 28 13.2642131544 +00 07 18.613986132   14.199 13.292 13.099 12.54 F3V 79 1
59 BD+47 2846 Er* 19 28 59.3538826128 +47 58 10.217007804   10.97 10.48     F6V 306 2
60 Kepler-40 Ro* 19 47 15.2874297936 +47 31 35.665322736   15.11   14.89 14.02 F5IV 50 1
61 Kepler-6 Ro* 19 47 20.9379557640 +48 14 23.759029608           ~ 97 1
62 Kepler-11g Pl 19 48 27.6226218768 +41 54 32.903163504           ~ 78 1
63 Kepler-11f Pl 19 48 27.6226218768 +41 54 32.903163504           ~ 129 1
64 Kepler-11d Pl 19 48 27.6226218768 +41 54 32.903163504           ~ 119 1
65 Kepler-11b Pl 19 48 27.6226218768 +41 54 32.903163504           ~ 149 1
66 Kepler-11e Pl 19 48 27.6226218768 +41 54 32.903163504           ~ 123 1
67 BD+47 2936 EB* 19 50 50.2472976936 +48 04 51.101390496       8.8   K4V 300 2
68 BD+47 2936b Pl 19 50 50.2472976936 +48 04 51.101390496           ~ 416 1
69 Kepler-5 Ro* 19 57 37.6884643560 +44 02 06.189718884           F5V 102 1
70 HD 189733 BY* 20 00 43.7129433648 +22 42 39.073143456 9.241 8.578 7.648 7.126 6.68 K2V 896 1
71 Qatar 1 PM* 20 13 31.6172746704 +65 09 43.492226796   13.90 12.84 12.65 11.71 ~ 61 1
72 WASP-2 V* 20 30 54.1282355304 +06 25 46.341284844   13 11.98     K1.5 139 1
73 HD 197286 PM* 20 44 10.2208462488 -39 13 30.855881604   9.98 9.50     F5V 80 1
74 HD 209458b Pl 22 03 10.7727465312 +18 53 03.549393384           ~ 1859 1
75 HD 209458 V* 22 03 10.7727465312 +18 53 03.549393384   8.21 7.63     F9V 1115 1
76 BD+37 4734B PM* 22 57 46.8442481880 +38 40 30.358351704   10.82 9.87     G0V 169 1
77 WASP-10 V* 23 15 58.3006181424 +31 27 46.296056268   12.4   12.03   K5V 90 1
78 WASP-4 EB* 23 34 15.0857248317 -42 03 41.047972591   13.51 12.48 11.9   G7V 176 1
79 WASP-30b BD? 23 53 38.054 -10 07 05.12           ~ 45 1
80 WASP-5 EB* 23 57 23.7564672192 -41 16 37.743700800   12.808 12.146 12.058 11.44 G4V 120 1

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