2019A&A...631A.111A

Query : 2019A&A...631A.111A

2019A&A...631A.111A - Astronomy and Astrophysics, volume 631A, 111-111 (2019/11-1)

Does magnetic field impact tidal dynamics inside the convective zone of low-mass stars along their evolution?

ASTOUL A., MATHIS S., BARUTEAU C., GALLET F., STRUGAREK A., AUGUSTSON K.C., BRUN A.S. and BOLMONT E.

Abstract (from CDS):


Context. The dissipation of the kinetic energy of wave-like tidal flows within the convective envelope of low-mass stars is one of the key physical mechanisms that shapes the orbital and rotational dynamics of short-period exoplanetary systems. Although low-mass stars are magnetically active objects, the question of how the star's magnetic field impacts large-scale tidal flows and the excitation, propagation and dissipation of tidal waves still remains open.
Aims. Our goal is to investigate the impact of stellar magnetism on the forcing of tidal waves, and their propagation and dissipation in the convective envelope of low-mass stars as they evolve.
Methods. We have estimated the amplitude of the magnetic contribution to the forcing and dissipation of tidally induced magneto-inertial waves throughout the structural and rotational evolution of low-mass stars (from M to F-type). For this purpose, we have used detailed grids of rotating stellar models computed with the stellar evolution code STAREVOL. The amplitude of dynamo-generated magnetic fields is estimated via physical scaling laws at the base and the top of the convective envelope.
Results. We find that the large-scale magnetic field of the star has little influence on the excitation of tidal waves in the case of nearly-circular orbits and coplanar hot-Jupiter planetary systems, but that it has a major impact on the way waves are dissipated. Our results therefore indicate that a full magneto-hydrodynamical treatment of the propagation and dissipation of tidal waves is needed to properly assess the impact of star-planet tidal interactions throughout the evolutionary history of low-mass stars hosting short-period massive planets.

Abstract Copyright: © A. Astoul et al. 2019

Journal keyword(s): magnetohydrodynamics (MHD) - waves - planet-star interactions - stars: evolution - stars: magnetic field - stars: rotation

Simbad objects: 67

goto Full paper

goto View the references in ADS

Number of rows : 67
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 KELT-1b Pl 00 01 26.9168207928 +39 23 01.784206464           ~ 121 0
2 KELT-1 EB* 00 01 26.9168207928 +39 23 01.784206464   11.23 10.63     F5 60 0
3 HD 166 BY* 00 06 36.7840068588 +29 01 17.412693890   6.82 6.07 5.6   G8 356 0
4 CD-24 102b Pl 00 20 38.5350433008 -23 56 08.602809216           ~ 34 1
5 CD-24 102 * 00 20 38.5350433008 -23 56 08.602809216   11.388 10.779 10.765   ~ 44 1
6 HAT-P-16 * 00 38 17.5584024024 +42 27 47.216738232   11.38 10.91     F8 65 1
7 HAT-P-16b Pl 00 38 17.5584024024 +42 27 47.216738232           ~ 60 1
8 * 54 Psc PM* 00 39 21.8053928046 +21 15 01.712899720 7.29 6.71 5.88 5.21 4.82 K0.5V 582 1
9 HD 10069 SB* 01 37 25.0332798696 -45 40 40.374717456   9.74 9.30     F6IV/V 230 1
10 HD 10069b Pl 01 37 25.0332798696 -45 40 40.374717456           ~ 369 1
11 BD-16 351 PM* 02 01 35.5659047928 -16 10 00.917785668   11.32 10.344 9.78 9.349 ~ 34 0
12 BD+05 378 PM* 02 41 25.8882694248 +05 59 18.396173868   11.58 10.271   8.807 K6Ve 110 1
13 * eps Eri BY* 03 32 55.8444911587 -09 27 29.739493865 5.19 4.61 3.73 3.00 2.54 K2V 1932 1
14 Cl* Melotte 22 PELS 31 ** 03 43 19.035552 +22 26 57.12720   12.81 11.62 11.285 10.396 K0 31 0
15 V* V966 Tau BY* 03 44 11.2145003449 +23 22 45.575870257   12.30 11.46     ~ 114 0
16 HAT-P-24 EB* 07 15 18.0193656720 +14 15 45.408025008   12.21 11.76 11.71   F8 53 1
17 HAT-P-24b Pl 07 15 18.0193656720 +14 15 45.408025008           ~ 43 1
18 HAT-P-9 * 07 20 40.4564614032 +37 08 26.342829060   12.35 12.34 12.08   F 55 1
19 HAT-P-9b Pl 07 20 40.4564614032 +37 08 26.342829060           ~ 69 1
20 HAT-P-20b Pl 07 27 39.9488720808 +24 20 11.516231112           ~ 82 1
21 HAT-P-20 PM* 07 27 39.9488720808 +24 20 11.516231112   12.58 11.35 11.00   K3V 73 1
22 HAT-P-13 * 08 39 31.8072358440 +47 21 07.273799280   11.15 10.42 10.40   G4 136 2
23 HAT-P-13b Pl 08 39 31.8072358440 +47 21 07.273799280           ~ 115 1
24 HD 82443 BY* 09 32 43.7594578944 +26 59 18.706023348   7.78   6.6   G9V(k) 248 1
25 WASP-19 EB* 09 53 40.0765648584 -45 39 33.057187596   13.05 12.31 12.12 11.35 G8V 182 2
26 WASP-19b Pl 09 53 40.0765648584 -45 39 33.057187596           ~ 370 1
27 HD 233731 PM* 10 22 43.5923328528 +50 07 42.062425248   10.62 9.76 9.44   G5 50 1
28 HD 233731b Pl 10 22 43.5923328528 +50 07 42.062425248           ~ 47 1
29 HD 102195 PM* 11 45 42.2928676296 +02 49 17.324140440       7.6   K0V 143 1
30 HATS-2b Pl 11 46 57.3702458424 -22 33 46.817348148           ~ 26 1
31 HATS-2 EB* 11 46 57.3702458424 -22 33 46.817348148   14.53 13.62 13.40   ~ 42 1
32 HAT-P-36 EB* 12 33 03.9061156728 +44 54 55.196024616   12.97 12.15 12.27   ~ 52 1
33 HAT-P-36b Pl 12 33 03.9061156728 +44 54 55.196024616           ~ 42 1
34 HAT-P-3 EB* 13 44 22.5937349736 +48 01 43.205733624   12.53 11.86     K1V 89 1
35 HAT-P-3b Pl 13 44 22.5937349736 +48 01 43.205733624           ~ 100 1
36 WASP-16 * 14 18 43.9225013904 -20 16 31.843626168   12.51 11.29 11.00 10.49 G3V 73 1
37 WASP-16b Pl 14 18 43.9225013904 -20 16 31.843626168           ~ 52 1
38 BD+22 2716 * 14 33 06.3571702344 +21 53 40.981395876   10.194 9.745     F5V 99 1
39 BD+22 2716b Pl 14 33 06.3571702344 +21 53 40.981395876           ~ 160 1
40 WASP-40b Pl 14 51 04.1870399712 +05 56 50.548526376           ~ 42 1
41 HAT-P-27 * 14 51 04.1870399712 +05 56 50.548526376   13.18 12.19 11.98 11.23 G8 60 1
42 BD+36 2593b Pl 15 19 57.9203617176 +36 13 46.738078788           ~ 81 1
43 BD+36 2593 * 15 19 57.9203617176 +36 13 46.738078788   11.83 11.12     F 108 1
44 HD 149026b Pl 16 30 29.6185771608 +38 20 50.308980864           ~ 351 1
45 HD 149026 PM* 16 30 29.6185771608 +38 20 50.308980864   8.75 8.14     G0IV 235 1
46 TrES-4 Pl 17 53 13.0489562760 +37 12 42.586493328           ~ 214 2
47 CoRoT-11b Pl 18 42 44.9499236256 +05 56 15.652972716           ~ 51 1
48 CoRoT-11 EB* 18 42 44.9499236256 +05 56 15.652972716   13.73 12.939     F6V 52 1
49 Kepler-8 Ro* 18 45 09.1489991376 +42 27 03.891327156           F6V 107 1
50 Kepler-8b Pl 18 45 09.1489991376 +42 27 03.891327156           ~ 94 1
51 Kepler-1b Pl 19 07 14.0375836512 +49 18 59.091482160           ~ 330 2
52 BD-03 4778 ** 20 04 49.3615182672 -02 39 20.389044168   11.18 10.128   9.133 K1V 39 0
53 HD 208180 EB* 21 55 04.2428047728 -22 36 45.287047764   10.70 10.25 10.232   F6V 21 0
54 HD 208180b Pl 21 55 04.2428047728 -22 36 45.287047764           ~ 12 0
55 HD 209458b Pl 22 03 10.7727465312 +18 53 03.549393384           ~ 1859 1
56 HD 209458 V* 22 03 10.7727465312 +18 53 03.549393384   8.21 7.63     F9V 1115 1
57 HD 211472 BY* 22 15 54.1384992984 +54 40 22.406647980   8.33   7.0   K1V 99 0
58 BD+34 4779b Pl 22 52 09.8636387352 +35 26 49.608422844           ~ 81 1
59 BD+34 4779 PM* 22 52 09.8636387352 +35 26 49.608422844   10.77 10.36 10.15   F8V 82 1
60 WASP-6 * 23 12 37.7368282608 -22 40 26.273805024   12.90 11.91     G8V 94 1
61 WASP-6b Pl 23 12 37.7368282608 -22 40 26.273805024           ~ 138 1
62 WASP-52 * 23 13 58.7576098848 +08 45 40.572305352   12.9 12.0 12.03   K2V 84 1
63 WASP-52b Pl 23 13 58.7576098848 +08 45 40.572305352           ~ 114 1
64 K2-1b Pl 23 34 27.8814904872 -01 34 48.110067912           ~ 43 1
65 WASP-28 * 23 34 27.8814904872 -01 34 48.110067912   12.61     11.47 F8-G0 44 1
66 WASP-5b Pl 23 57 23.7564672192 -41 16 37.743700800           ~ 97 1
67 WASP-5 EB* 23 57 23.7564672192 -41 16 37.743700800   12.808 12.146 12.058 11.44 G4V 120 1

To bookmark this query, right click on this link: simbad:objects in 2019A&A...631A.111A and select 'bookmark this link' or equivalent in the popup menu