2019A&A...624A..49W

Query : 2019A&A...624A..49W

2019A&A...624A..49W - Astronomy and Astrophysics, volume 624A, 49-49 (2019/4-1)

Detectability of atmospheric features of Earth-like planets in the habitable zone around M dwarfs.

WUNDERLICH F., GODOLT M., GRENFELL J.L., STADT S., SMITH A.M.S., GEBAUER S., SCHREIER F., HEDELT P. and RAUER H.

Abstract (from CDS):


Context. The characterisation of the atmosphere of exoplanets is one of the main goals of exoplanet science in the coming decades.
Aims. We investigate the detectability of atmospheric spectral features of Earth-like planets in the habitable zone (HZ) around M dwarfs with the future James Webb Space Telescope (JWST).
Methods. We used a coupled 1D climate-chemistry-model to simulate the influence of a range of observed and modelled M-dwarf spectra on Earth-like planets. The simulated atmospheres served as input for the calculation of the transmission spectra of the hypothetical planets, using a line-by-line spectral radiative transfer model. To investigate the spectroscopic detectability of absorption bands with JWST we further developed a signal-to-noise ratio (S/N) model and applied it to our transmission spectra.
Results. High abundances of methane (CH4) and water (H2O) in the atmosphere of Earth-like planets around mid to late M dwarfs increase the detectability of the corresponding spectral features compared to early M-dwarf planets. Increased temperatures in the middle atmosphere of mid- to late-type M-dwarf planets expand the atmosphere and further increase the detectability of absorption bands. To detect CH4, H2O, and carbon dioxide (CO2) in the atmosphere of an Earth-like planet around a mid to late M dwarf observing only one transit with JWST could be enough up to a distance of 4pc and less than ten transits up to a distance of 10pc. As a consequence of saturation limits of JWST and less pronounced absorption bands, the detection of spectral features of hypothetical Earth-like planets around most early M dwarfs would require more than ten transits. We identify 276 existing M dwarfs (including GJ 1132, TRAPPIST-1, GJ 1214, and LHS 1140) around which atmospheric absorption features of hypothetical Earth-like planets could be detected by co-adding just a few transits.
Conclusions. The TESS satellite will likely find new transiting terrestrial planets within 15pc from the Earth. We show that using transmission spectroscopy, JWST could provide enough precision to be able to partly characterise the atmosphere of TESS findings with an Earth-like composition around mid to late M dwarfs.

Abstract Copyright: © ESO 2019

Journal keyword(s): planets and satellites: atmospheres - planets and satellites: detection - planets and satellites: surfaces - planets and satellites: terrestrial planets - techniques: spectroscopic - stars: low-mass

VizieR on-line data: <Available at CDS (J/A+A/624/A49): stars.dat sun.dat gj832.dat gj176.dat gj581.dat gj436.dat gj644.dat adleo.dat gj667c.dat gj876.dat gj1214.dat proxcen.dat trappist.dat>

Simbad objects: 72

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Number of rows : 72
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 LP 644-25 PM* 00 03 15.6036009528 -07 20 51.415262772     16.80     ~ 4 0
2 G 158-50 ** 00 15 28.11090 -16 08 01.6303 14.49 13.187 11.483 10.273 8.711 M4V 130 0
3 BD+40 45 PM* 00 17 06.3740983357 +40 56 53.870823378   10.36   8.2   K7 126 0
4 HD 1326B Er* 00 18 25.8251408611 +44 01 38.092431857   12.84 11.04 10.3   M3.5V 286 0
5 Ross 6 SB* 00 20 13.5480276672 +36 55 15.895470360       10.9   ~ 13 0
6 Ross 7 PM* 00 21 42.5836281480 +39 02 21.783388668       11.3   ~ 6 0
7 LP 881-64 ** 00 24 44.1774908692 -27 08 25.263232614   17.18 15.338 13.502 11.403 M5.5/6Ve+M8.5Ve+M9/9.5V 139 0
8 Wolf 4 PM* 00 33 05.5547369181 +42 00 05.319720920       10.444   M0V 37 0
9 Wolf 13 PM* 00 41 20.9558849535 +42 22 48.793652736   13.6   11.5   K7 9 0
10 G 268-38 PM* 00 44 59.3309137511 -15 16 17.542839990     14.150 13.801   M4.5V 141 0
11 V* YZ Cet Er* 01 12 30.6368826382 -16 59 56.358011559 15.315 13.885 12.074 10.696 8.938 M4.0Ve 264 0
12 V* TZ Ari Er* 02 00 12.9563198327 +13 03 07.000569241 15.406 14.100 12.298 10.943 9.195 M4.5V 282 0
13 LP 469-206 Er* 02 16 29.8513937296 +13 35 12.783947560   17.77   15.635   M5.0Ve 56 0
14 NAME Teegarden's Star LM* 02 53 00.8917932409 +16 52 52.632190137   17.21   14.1   dM6 157 0
15 G 221-5 PM* 03 10 58.3020688358 +73 46 19.688390262   16.45   13.8   M6 35 0
16 L 372-58 PM* 03 35 59.6991613260 -44 30 45.730830569 16.22 14.98 13.07 11.45 9.47 M5.5V 114 0
17 Ross 578 LM* 03 38 15.6979940371 -11 29 13.505034257   14.67 13.02     d/sdM2 62 0
18 Ross 27 PM* 04 11 13.1075853140 +49 31 52.439630109   14.6   13.111   M3.5 27 0
19 K2-25 Er* 04 13 05.6131374072 +15 14 52.018080576   15.81 15.56 13.72   M4.5V 73 0
20 HD 285968 PM* 04 42 55.7750207949 +18 57 29.395947044 12.668 11.49 9.951 8.931 7.702 M2.5V 335 2
21 LP 656-38 Er* 05 01 57.4261317472 -06 56 46.376281497   13.92 12.196 11.791 9.175 M4.0Ve 142 0
22 LSR J0539+4038 PM* 05 39 24.8045087545 +40 38 42.835528767   17.3 17.00 15.5   M8.0Ve 36 0
23 Ross 605 PM* 06 27 56.9953612056 +11 41 32.454676716   12.71 11.81 11.62   ~ 2 0
24 BD+05 1668 PM* 07 27 24.4989685603 +05 13 32.841491057 12.558 11.443 9.872 8.699 7.161 M3.5V 418 0
25 SCR J0740-4257 PM* 07 40 11.8071717612 -42 57 40.291971331   15.5 13.835 12.36 10.50 M4.5 29 0
26 LP 424-4 PM* 07 59 05.8395356736 +15 23 29.236065000   13.5   11.934   M2.0V 125 1
27 Ross 619 PM* 08 11 57.5691729379 +08 46 22.952885566   14.60 12.834 12.527   M4.5V 201 0
28 G 51-15 Er* 08 29 49.3527921926 +26 46 33.624143059   16.87   14.736   M6.5Ve 295 0
29 SCR J0838-5855 PM* 08 38 02.1619253321 -58 55 58.465465641   18.44 17.15 15.08 12.78 M6e 17 0
30 G 9-38 ** 08 58 15.061776 +19 45 46.96020   15.58   13.40   M7V+M7V 107 0
31 LP 368-128 PM* 09 00 23.5461184051 +21 50 04.901331010   17.3 16.100 14.09 11.85 M6.5Ve 63 0
32 G 161-7 ** 09 15 36.402000 -10 35 47.22900   15.643 13.804 13.473 10.42 M5.0V 45 0
33 L 100-115 PM* 09 42 46.3429551119 -68 53 06.008938214   14.51 12.78 11.35 9.61 M4.0V 55 0
34 L 320-124 PM* 10 14 51.7786855411 -47 09 24.192778106       13.067   M4 125 0
35 V* AD Leo Er* 10 19 36.2808181226 +19 52 12.010446571   10.82 9.52 9.19   dM3 1340 1
36 Wolf 359 Er* 10 56 28.9208702274 +07 00 53.003285286 16.706 15.541 13.507 11.684 9.507 dM6 721 0
37 BD+44 2051B Er* 11 05 30.8855820790 +43 31 17.885197587   16.45 14.45 13.4   M6.0V 246 0
38 K2-18 PM* 11 30 14.5177445592 +07 35 18.255348492   15.01 13.50 13.24   dM2.5 96 0
39 Ross 905b Pl 11 42 11.0933350978 +26 42 23.650782778           ~ 810 1
40 Ross 905 PM* 11 42 11.0933350978 +26 42 23.650782778   12.06 10.613 10.272 8.24 M3V 645 1
41 Ross 128 Er* 11 47 44.3972681420 +00 48 16.400337591 14.223 12.905 11.153 9.859 8.184 dM4 420 0
42 V* GL Vir Er* 12 18 59.3997287457 +11 07 33.773236317   15.68 13.90 13.55   M4.5Ve 168 0
43 Wolf 424 ** 12 33 17.361480 +09 01 15.79224 15.398 14.313 12.467 10.937 8.988 M5.5V 321 0
44 L 471-42 PM* 12 38 49.0984129478 -38 22 53.670422368   14.43 12.74 12.473   M4.0V 61 0
45 NAME Proxima Centauri Er* 14 29 42.9461331854 -62 40 46.164680672 14.21 12.95 11.13 9.45 7.41 M5.5Ve 1299 0
46 NAME Proxima Centauri b Pl 14 29 42.9461331854 -62 40 46.164680672           ~ 368 0
47 BD-07 4003 BY* 15 19 26.8269387505 -07 43 20.189497466 13.403 11.76 10.560 9.461 8.911 M3V 641 2
48 LP 502-56 PM* 15 30 30.3277933488 +09 26 01.442614776   16.5   14.918   M5.5V 34 0
49 LP 563-38 EB* 15 46 04.3030642435 +04 41 30.066220912   17.1   15.0   M5.1 38 1
50 HD 152751 SB* 16 55 28.7575690 -08 20 10.787849 11.647 10.593 9.023 7.937 6.565 M3.5Ve 523 1
51 G 139-21 PM* 17 15 18.9339850845 +04 57 50.066612336       14.394   M4.5V 325 1
52 NAME G 139-21b Pl 17 15 18.9339850845 +04 57 50.066612336           ~ 720 1
53 HD 156384C PM* 17 18 58.8272997802 -34 59 48.612673382 12.96 11.79 10.22 10.05 8.82 M1.5V 221 1
54 NAME Barnard's star BY* 17 57 48.4984700685 +04 41 36.113879676 12.497 11.24 9.511 8.298 6.741 M4V 812 2
55 L 43-72 ** 18 11 15.35472 -78 59 23.1108   14.27 12.62 12.23 9.49 M4.5 29 0
56 G 258-33 Er* 18 18 57.2325828283 +66 11 33.304331650   15.29   13.096   M4.5Ve 90 0
57 G 141-36 PM* 18 48 17.5373479643 +07 41 21.186505469   15.6   13.817   M5.0V 46 0
58 CD-23 14742 Er* 18 49 49.3637762005 -23 50 10.447375350 13.528 12.19 10.43 10.23 7.703 M3.5Ve 378 0
59 G 205-57 EB* 19 10 14.284032 +46 57 24.10632   14.93 13.38 13.01   M1 60 0
60 Kepler-42 Er* 19 28 52.5688740811 +44 37 08.989819665   17.8   16.06   M4V 114 1
61 G 208-44 Er* 19 53 54.4821159649 +44 24 51.341564299   15.31 13.126 13.083 9.78 M5.5Ve 207 1
62 G 208-45 LM* 19 53 55.1405033909 +44 24 54.147256052   15.97 13.99 14.3 10.27 M6V 190 0
63 HD 204961 PM* 21 33 33.9751191976 -49 00 32.399427028 11.359 10.176 8.672 7.665 6.479 M2/3V 290 1
64 LSPM J2146+3813 PM* 21 46 22.0724658744 +38 13 04.977309828   13.3   11.867   M5V 43 0
65 BD-15 6290 BY* 22 53 16.7325836486 -14 15 49.304052185 12.928 11.749 10.192 9.013 7.462 M3.5V 1013 1
66 TRAPPIST-1e Pl 23 06 29.3684948589 -05 02 29.037301866           ~ 287 0
67 TRAPPIST-1c Pl 23 06 29.3684948589 -05 02 29.037301866           ~ 193 0
68 TRAPPIST-1d Pl 23 06 29.3684948589 -05 02 29.037301866           ~ 214 0
69 TRAPPIST-1 LM* 23 06 29.3684948589 -05 02 29.037301866     18.798 16.466 14.024 M7.5e 995 0
70 TRAPPIST-1f Pl 23 06 29.3684948589 -05 02 29.037301866           ~ 232 0
71 G 157-77 PM* 23 35 10.4624266947 -02 23 20.613547105   16.60 14.69 14.447   M5.0Ve 94 0
72 Ross 248 BY* 23 41 55.0363002516 +44 10 38.818911116   14.19   11.1   M5.0V 315 0

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