Tidal interactions of close-in extrasolar planets with their host stars Ludmila Carone
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Extrasolar Planets Z:\exo\presentations\EGS2001_exo.ppt, 27.06.22 20:34AM, 1 Tidal interactions of close-in extrasolar planets with their host stars Ludmila Carone Institut für Geophysik und Meterologie Universität zu Köln, Cologne, Germany 5th Corot Week, 11. December 2003 in Berlin
description
Tidal interactions of close-in extrasolar planets with their host stars Ludmila Carone Institut für Geophysik und Meterologie Universität zu Köln, Cologne, Germany 5th Corot Week, 11. December 2003 in Berlin. Very close-in extrasolar planets. Tides raised by the star on the planet. - PowerPoint PPT Presentation
Transcript of Tidal interactions of close-in extrasolar planets with their host stars Ludmila Carone
Extrasolar Planets
Z:\exo\presentations\EGS2001_exo.ppt, 21.04.23 07:48AM, 1
Tidal interactions of close-in extrasolar planets with their host stars
Ludmila Carone
Institut für Geophysik und Meterologie
Universität zu Köln, Cologne, Germany
5th Corot Week, 11. December 2003 in Berlin
Extrasolar Planets
Z:\exo\presentations\EGS2001_exo.ppt, 21.04.23 07:48AM, 2
Very close-in extrasolar planets
2,414HD 49674 G5 0,12 0,057 4,948 0 27,757 1 0,981
2,3520,9563,971 0 27,757 1HD 76700 G6 0,197 0,049
2,952HD 209458 G0 0,69 0,045 3,525 0 15,7 1,05 1,2
2,4751,0063,487 0 27,757 1,1BD -10 3166 G4 0,48 0,046
2,721OGLE-TR-58 G0 1,6 0,052 4,345 0 27,757 0,99 1,106
2,7211,1063,101 0 27,757 1OGLE-TR-10 G0 0,7 0,042
2,721OGLE-TR3 G0 0,5 0,023 1,19 0 27,757 1,000 1,106
2,7061,11,212 0 18,399 1,04OGLE-TR56 G0 1,45 0,023
Stellar radius [Ro]
Roche zone [Ro]
revolution period [days]
Orbit excentricity
Stellar rotation [days]
Stellar mass [Mo]
Stellar name
Spectral type
Planetary mass [Mj]
Semi major axis [AU]
Extrasolar Planets
Z:\exo\presentations\EGS2001_exo.ppt, 21.04.23 07:48AM, 3
Tides raised by the star on the planet
• Close-in extrasolar planets (a < 0.05 AU) experience extreme gravitational interaction
• ->Tidal bulge on planet
-> synchronous rotation (rotation = revolution)
Extrasolar Planets
Z:\exo\presentations\EGS2001_exo.ppt, 21.04.23 07:48AM, 4
Time to reach synchronous rotation
• Tides raised by the star on the planet
• -> synchronous rotation of the planet
0
322
3
3
2
p
p
p p
p p p p
n
k RM GMQ a aM M M
sinp pM M i-> depends on planetary mass and radius
Extrasolar Planets
Z:\exo\presentations\EGS2001_exo.ppt, 21.04.23 07:48AM, 5
Time to reach synchronous rotation all planets a < 0.20 AU
0.00 0.05 0.10 0.15 0.2010-510-410-310-210-1100101102103104105106
semi major axis [AU]
stellar rotationplanetary rotationsolar rotation by JupiterJupiter´s rotation by Sun
tim
e re
qu
ired
to
syn
chro
niz
e ro
tati
on
[G
y]
Z:exocalculationsrot_slow-down.sgr/Z14
tau Boo
Extrasolar Planets
Z:\exo\presentations\EGS2001_exo.ppt, 21.04.23 07:48AM, 6
Tides raised by the planet on the star
• Tidal bulge on the host star
-> increase/decrease of semi major axis
-> decrease/increase of stellar rotation
Extrasolar Planets
Z:\exo\presentations\EGS2001_exo.ppt, 21.04.23 07:48AM, 7
Tidal evolution
• Tides raised by the planet on the star decrease/increase of
semi major axis
Spin-up/decrease of star rotation
depends on planetary mass and star radius
213 13
5* P 2* * * 0
* *
13 3 k Ma(t) sign( n) R GM t a
2 Q M
113 13
* P 5* P2* *0 0 * * * 0
* * *
GM M 13 3 k M(t) a sign( n) R GM a
2 C 2 Q M
Extrasolar Planets
Z:\exo\presentations\EGS2001_exo.ppt, 21.04.23 07:48AM, 8
The parameters k* and Q*
• Evolution time scale depends strongly on stellar love number k* and the stellar tidal dissipation factor Q*
6 7*
*
10 Q 3 10
0.02 k 0.17
6 9*
*
Q5 10 1.5 10
k
• Pätzold & Rauer (2002) favor: 8*
*
Q1 10
k
Extrasolar Planets
Z:\exo\presentations\EGS2001_exo.ppt, 21.04.23 07:48AM, 9
OGLE-TR-56b (an extreme planet)
• OGLE-TR-56b was discovered during the OGLE-survey (Konacki et al, 2003)
• Parameters:
P J
P J
true J
M sin i 1.45 0.23 M
R 1.23 0.16 R
a 0.0225 0.0004 AU
e 0 Inclination 81 2.2 deg
M 1.47 0.25 M
• extremly close distance to its host star & large mass -> very strong tidal interactions
Extrasolar Planets
Z:\exo\presentations\EGS2001_exo.ppt, 21.04.23 07:48AM, 10
OGLE-TR-56b: Evolution of semi major axis
0 1 2 3 4 5 60.01
0.015
0.02
evolution time [Gyr]
sem
i m
ajor
axi
s [A
U]
Qstar
kstar1.5 109
Qstar
kstar
Qstar
kstar108
Qstar
kstarQstar
kstar5 106
Qstar
kstar
roche limit
Extrasolar Planets
Z:\exo\presentations\EGS2001_exo.ppt, 21.04.23 07:48AM, 11
OGLE-TR-56b: Evolution of stellar rotation
0 1 2 3 4 55
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
evolution time [Gyr]
stel
lar
rota
tion
[da
ys]
Qstar
kstar1.5 109
Qstar
kstarQstar
kstar108
Qstar
kstar
Qstar
kstar5 106
Qstar
kstar
Extrasolar Planets
Z:\exo\presentations\EGS2001_exo.ppt, 21.04.23 07:48AM, 12
OGLE-TR-56b: Evolution of stellar rotation(only in convection envelope)
0 1 2 3 4 50
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
evolution time [Gyr]
stel
lar
rota
tion
[da
ys]
Qstar
kstar1.5 109
Qstar
kstarQstar
kstar108
Qstar
kstar
Qstar
kstar5 106
Qstar
kstar
Extrasolar Planets
Z:\exo\presentations\EGS2001_exo.ppt, 21.04.23 07:48AM, 13
Time to reach roche limit
0.02 0.025 0.03 0.035 0.04 0.045 0.05 0.0550.1
1
10
100
1 103
1 104
1 105
1 106
semi major axis [AU]
tim
e to
rea
ch r
oche
lim
it [
Gyr
]
Extrasolar Planets
Z:\exo\presentations\EGS2001_exo.ppt, 21.04.23 07:48AM, 14
Conclusion
• OGLE-TR-56b may reach the roche limit within the lifetime of its host star
• Tidal effects could lead to a considerable spin up in stellar rotation
• Even more so, when only spin-up in convection envelope is considered (no friction between core and envelope)
• The strength of tidal effects depends strongly on the planet‘s mass and the semi major axis
• But for a better prediction the geophyisical properties Q* and k* have to be determined -> we need more data
Extrasolar Planets
Z:\exo\presentations\EGS2001_exo.ppt, 21.04.23 07:48AM, 15
Very close-in extrasolar planets
2,414HD 49674 G5 0,12 0,057 4,948 0 27,757 1 0,981
2,3520,9563,971 0 27,757 1HD 76700 G6 0,197 0,049
2,952HD 209458 G0 0,69 0,045 3,525 0 15,7 1,05 1,2
2,4751,0063,487 0 27,757 1,1BD -10 3166 G4 0,48 0,046
2,721OGLE-TR-58 G0 1,6 0,052 4,345 0 27,757 0,99 1,106
2,7211,1063,101 0 27,757 1OGLE-TR-10 G0 0,7 0,042
2,721OGLE-TR3 G0 0,5 0,023 1,19 0 27,757 1,000 1,106
2,7061,11,212 0 18,399 1,04OGLE-TR56 G0 1,45 0,023
Stellar radius [Ro]
Roche zone [Ro]
revolution period [days]
Orbit excentricity
Stellar rotation [days]
Stellar mass [Mo]
Stellar name
Spectral type
Planetary mass [Mj]
Semi major axis [AU]
Extrasolar Planets
Z:\exo\presentations\EGS2001_exo.ppt, 21.04.23 07:48AM, 16
OGLE-TR-3b: Evolution of semi major axis
0 1 2 3 4 5 60.012
0.014
0.016
0.018
0.02
0.022
0.024
evolution time [Gyr]
sem
i m
ajor
axi
s [A
U]
Qstar
kstar1.5 109
Qstar
kstar
Qstar
kstar108
Qstar
kstar
Qstar
kstar5 106
Qstar
kstar
roche limit
Extrasolar Planets
Z:\exo\presentations\EGS2001_exo.ppt, 21.04.23 07:48AM, 17
OGLE-TR-3b: Evolution of stellar rotation
0 1 2 3 4 5 618
20
22
24
26
28
evolution time [Gyr]
stel
lar
rota
tion
tim
e [d
ays]
Qstar
kstar1.5 109
Qstar
kstar
Qstar
kstar108
Qstar
kstar
Qstar
kstar5 106
Qstar
kstar
Extrasolar Planets
Z:\exo\presentations\EGS2001_exo.ppt, 21.04.23 07:48AM, 18
OGLE-TR-3b: Evolution of stellar rotation(only in convection envelope)
0 1 2 3 4 5 65
10
15
20
25
30
evolution time [Gyr]
stel
lar
rota
tion
tim
e [d
ays]
Qstar
kstar1.5 109
Qstar
kstar
Qstar
kstar108
Qstar
kstar
Qstar
kstar5 106
Qstar
kstar
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