2017A&A...598A..26P

Query : 2017A&A...598A..26P

2017A&A...598A..26P - Astronomy and Astrophysics, volume 598A, 26-26 (2017/2-1)

HADES RV Programme with HARPS-N at TNG. II. Data treatment and simulations.

PERGER M., GARCIA-PIQUER A., RIBAS I., MORALES J.C., AFFER L., MICELA G., DAMASSO M., SUAREZ-MASCARENO A., GONZALEZ-HERNANDEZ J.I., REBOLO R., HERRERO E., ROSICH A., LAFARGA M., BIGNAMINI A., SOZZETTI A., CLAUDI R., COSENTINO R., MOLINARI E., MALDONADO J., MAGGIO A., LANZA A.F., PORETTI E., PAGANO I., DESIDERA S., GRATTON R., PIOTTO G., BONOMO A.S., MARTINEZ FIORENZANO A.F., GIACOBBE P., MALAVOLTA L., NASCIMBENI V., RAINER M. and SCANDARIATO G.

Abstract (from CDS):

Context. The distribution of exoplanets around low-mass stars is still not well understood. Such stars, however, present an excellent opportunity for reaching down to the rocky and habitable planet domains. The number of current detections used for statistical purposes remains relatively modest and different surveys, using both photometry and precise radial velocities, are searching for planets around M dwarfs.
Aims. Our HARPS-N red dwarf exoplanet survey is aimed at the detection of new planets around a sample of 78 selected stars, together with the subsequent characterization of their activity properties. Here we investigate the survey performance and strategy.
Methods. From 2700 observed spectra, we compare the radial velocity determinations of the HARPS-N DRS pipeline and the HARPS-TERRA code, calculate the mean activity jitter level, evaluate the planet detection expectations, and address the general question of how to define the strategy of spectroscopic surveys in order to be most efficient in the detection of planets.
Results. We find that the HARPS-TERRA radial velocities show less scatter and we calculate a mean activity jitter of 2.3m/s for our sample. For a general radial velocity survey with limited observing time, the number of observations per star is key for the detection efficiency. In the case of an early M-type target sample, we conclude that approximately 50 observations per star with exposure times of 900s and precisions of approximately 1m/s maximizes the number of planet detections.

Abstract Copyright: © ESO, 2017

Journal keyword(s): methods: statistical - techniques: radial velocities - surveys - stars: low-mass - planets and satellites: general

VizieR on-line data: <Available at CDS (J/A+A/598/A26): table2.dat>

Simbad objects: 78

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Number of rows : 78
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 BD+44 4548 PM* 00 05 10.8891989003 +45 47 11.641457986   11.45   9.2   M2Ve 165 0
2 G 242-48 Er* 00 13 38.7121518351 +80 39 56.841198655       10.681   M1.5V 64 0
3 MCC 356 * 00 18 16.5902427504 +10 12 10.042206084 13.572 12.39 10.864 9.869 8.738 M1V 57 0
4 HD 1326 Er* 00 18 22.8849799680 +44 01 22.637951588   10.120   7.3   M2V 542 0
5 MCC 357 PM* 00 26 52.7022954840 +70 08 32.718471000   11.8   10.075   M1.0V 52 0
6 BD+66 34 ** 00 32 29.43301 +67 14 08.4138           M2V+M3V 119 1
7 Wolf 1056 PM* 00 38 59.0443396237 +30 36 58.387586417   12.60   10.6   M2.5V 96 0
8 Wolf 44 PM* 01 01 20.0492200601 +61 21 56.681648637   12.26 10.87     M2.0V 92 1
9 BD+61 195 PM* 01 02 38.8680626986 +62 20 42.175257431   11.439   8.7   M1.5V 245 0
10 G 33-36 PM* 01 06 41.5111821960 +15 16 22.092468240 14.124 12.913 11.403 10.415 9.232 M0V 51 0
11 Wolf 59 PM* 01 16 10.1314523643 +60 09 12.828041795       10.801   M0.5V 25 0
12 G 3-14 PM* 01 43 20.1790598651 +04 19 17.959793419 13.64 12.45 10.915 9.879 8.614 M2V 150 0
13 G 244-37 PM* 01 51 51.1331191583 +64 26 05.922299097       11.036   M2.5V 60 0
14 G 244-47 PM* 02 01 35.3407161312 +63 46 11.997406488       10.630   M2.5V 69 0
15 G 36-38 PM* 02 52 25.0252334280 +26 58 29.926721352   12.11 11.048 10.646   M2V 49 0
16 Ross 364 PM* 02 56 34.4247003932 +55 26 14.101717979       9.6   M1.0V 84 0
17 Ross 365 PM* 02 56 35.1557356598 +55 26 29.607339034   13.0   10.9   M2.5V 55 0
18 StKM 1-347 PM* 03 12 12.6295778112 +29 51 32.416061112   12.20 11.056 10.62   K7.5V 15 0
19 LP 198-637 ** 03 20 45.215160 +39 43 01.47432   12.74 11.31 10.82   M1.5V 20 0
20 MCC 424 PM* 03 41 37.2773263104 +55 13 06.830985108 15.431     10.794   M0.0Ve 51 0
21 MCC 428 PM* 03 43 45.2472000220 +16 40 02.166682565 13.476 12.265 10.763 9.78 8.681 M0V 86 0
22 Ross 23 PM* 03 56 47.3989952263 +53 33 36.797893077   12.29   10.572   M1.5V 54 0
23 HD 281621 ** 04 08 37.3990468775 +33 38 13.331937422   11.872 10.192 9.734 8.19 K7V 76 0
24 G 191-15 Ro* 04 58 45.9907523546 +50 56 37.765779142   12.39   10.1   M1.0V 61 0
25 BD+52 911 PM* 05 03 23.9019726858 +53 07 42.484047461   11.789 10.059 9.08 8.11 M0.5V 94 0
26 G 191-45 PM* 05 34 08.6635092120 +51 12 56.365329420   12.35 11.069 10.593   M1.0V 42 0
27 StKM 1-587 PM* 06 14 42.4169905224 +47 27 34.599538836   12.86 11.428 11.012   M0.5V 16 0
28 LF 8 +13 265 PM* 06 19 29.4971469624 +13 57 02.965251204   12.03 10.708 10.171   M0.5V 17 0
29 G 107-65 PM* 07 23 14.8953729408 +46 05 14.683572204       10.059   M1V 74 0
30 StKM 1-650 PM* 07 31 36.1455938712 +62 01 11.522483796   13.36   11.436   M0.5V 18 0
31 G 234-57 ** 09 13 23.849448 +68 52 30.70416   12.767 11.168 10.760   M2.5Ve 43 0
32 G 55-35 PM* 10 39 40.5638632278 -06 55 25.507022782 13.939 12.79 11.281 10.244 8.961 dM2.5 86 0
33 Ross 104 PM* 11 00 04.2570074282 +22 49 58.645009946 12.826 11.584 10.020 8.952 7.646 M4V 184 0
34 BD+44 2051 PM* 11 05 28.5769490063 +43 31 36.386948721 11.440 10.270   7.9   M1.0V 329 0
35 HD 97101B PM* 11 11 02.5374902488 +30 26 41.311142783   12.39 9.983 8.99 7.83 M2V 126 0
36 GJ 3649 * 11 12 38.9713844304 +18 56 05.433508752   12.19 10.85     dM1.5 48 0
37 BD+36 2219 LM* 11 51 07.3365505565 +35 16 19.248218463   11.30 9.802 9.420 7.64 M1.5V 177 0
38 BD+29 2279 PM* 12 19 24.0910163177 +28 22 56.537146620   10.705   9.8   M0.5V 103 0
39 Wolf 427 PM* 12 35 00.7053547280 +09 49 42.564002768 13.884 12.85 11.405 10.413 9.171 M1V 85 1
40 Ross 1007 PM* 13 19 40.1255632811 +33 20 47.508282622   12.16   10.179   M2V 124 0
41 BD+46 1889 ** 13 39 24.1022767773 +46 11 11.363133111       9.800   M1.0V 96 0
42 MCC 150 PM* 14 02 19.6247554224 +13 41 22.688339712 13.34 12.098 10.636 9.691 8.678 M1V 64 0
43 BD+24 2733 PM* 14 25 43.4748820082 +23 37 01.490279666 12.398 11.169 9.720 8.811 7.877 M3V 122 0
44 BD+16 2658 PM* 14 29 29.6973782867 +15 31 57.501338204 13.385 12.176 10.676 9.674 8.467 M2/3V 135 0
45 BD-07 4156 PM* 15 59 53.3816776104 -08 15 11.540253528 13.197 11.999 10.487 9.497 8.365 M1V 83 0
46 MCC 759 PM* 16 09 03.1407662856 +52 56 37.956748812       9.706   M0.5V 66 0
47 G 202-48 PM* 16 25 24.6230388531 +54 18 14.765465640   11.78 10.07 9.66   M1.5V 207 0
48 BD+19 3268 ** 17 15 50.098752 +19 00 00.13608   11.858 10.370 9.864   M0.5V 38 0
49 BD+11 3149 PM* 17 16 00.6368683489 +11 03 27.615757436 13.521 12.338 10.828 9.858 8.767 M1V 72 0
50 G 139-27 PM* 17 16 40.9809159936 +08 03 30.206482884 14.301 13.087 11.529 10.48 9.219 M2.5V 76 0
51 G 181-39 PM* 17 19 52.7123256416 +41 42 49.699619416   11.423   10.4   M2V 95 0
52 G 226-66 PM* 17 35 34.4785242391 +61 40 53.628113703   11.40 9.98 9.52 8.01 M1V 140 0
53 BD+18 3421 PM* 17 37 53.3468417549 +18 35 30.164096453 12.315 11.109 9.577 8.599 7.525 M1.5V 211 0
54 BD+46 2361 * 17 45 33.5252323728 +46 51 19.321825680   12.09 10.718 10.194   M1V 64 0
55 HD 336196 PM* 18 25 04.7942126871 +24 38 04.482243575 13.477 12.26 10.767 9.847 8.894 M0V 45 1
56 BD+45 2743 PM* 18 35 18.3903206545 +45 44 38.539577234   11.26 9.830 9.400 8 M0.5V 137 0
57 HD 229793 PM* 18 51 51.1834439836 +16 34 59.817780551 12.787 11.585 10.104 9.174 8.23 M0V 82 0
58 HD 176029 PM* 18 58 00.1362313720 +05 54 29.240711762 11.888 10.673 9.217 8.286 7.31 M1.0V 155 0
59 BD+07 3922 PM* 18 59 38.6064817192 +07 59 14.117881489       10.368   M0.5V 42 0
60 BD+71 8595 PM* 19 39 32.8683863626 +71 52 19.159911915   12.42   10.466   M0.5V 44 0
61 Ross 754 PM* 20 13 51.8072683014 +13 23 19.714709810       10.827   K6V 42 0
62 G 262-15 PM* 20 30 32.0453969319 +65 26 58.411357864   12.00   10.124   M3V 165 0
63 G 210-45 PM* 20 58 41.9302505758 +34 16 27.043824000       10.499   M0.5V 38 0
64 BPM 96441 PM* 21 12 55.4528658936 +31 07 54.303421548   13.3 11.9 11.069   K7/M0V 13 0
65 PM J21179+3404 ** 21 17 59.066976 +34 04 30.12312   12.937 11.523 11.068   M0.0V 16 0
66 StKM 1-1877 PM* 21 18 33.7572866472 +30 14 34.619024220   13.24 11.69 11.154   M1.5Ve 30 0
67 V* V2160 Cyg PM* 21 27 32.9559796716 +34 01 28.629238556       10.668   M1.5V 39 0
68 L 1578-44 A PM* 21 36 38.5763266159 +39 27 20.527379279   11.63 10.25 9.696   M0.5V 13 0
69 BD+27 4120 ** 21 38 00.38433 +27 43 25.4747     9.947 9.475   M1V 85 0
70 G 215-12 PM* 21 44 53.9917638996 +44 17 08.908708169   12.61 11.342 10.919 9.25 M2+V 41 0
71 G 214-14 PM* 22 11 16.9511006544 +41 00 54.834301230       10.559   M0.0V 39 0
72 PM J22355+3712 PM* 22 35 35.0326619928 +37 12 13.115152512     11.771 11.316   M0.0V 11 0
73 PM J22440+4030 PM* 22 44 04.6062091464 +40 30 00.260219736   13.16 11.425 10.85   M1.0V 13 0
74 PM J22441+4030 PM* 22 44 06.2619290688 +40 30 00.157015692   13.26 11.303 10.85   M1.0V 15 0
75 StKM 1-2065 PM* 22 55 59.8457038248 +17 48 39.797770284   11.76 10.558 10.063   M1.0V 44 0
76 LSPM J2256+5919 SB* 22 56 13.4903669232 +59 19 08.682831480       10.826   M0.0V 12 0
77 BD+57 2735 PM* 23 24 30.5146230120 +57 51 15.517884924   11.56   9.586   M1.5V 119 0
78 V* BR Psc BY* 23 49 12.5250852078 +02 24 04.405476893 11.532 10.427 8.993 8.029 6.946 dM1 326 0

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