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|Abstract:||We calculate the eigenfrequencies and eigenfunctions of the acoustic oscillations of giant exoplanets and explore the dependence of the characteristic frequency ν0 and the eigenfrequencies on several parameters: the planet mass, the planet radius, the core mass, and the heavy element mass fraction in the envelope. We provide the eigenvalues for degree l up to 8 and radial order n up to 12. For the selected values of l and n, we find that the pulsation eigenfrequencies depend strongly on the planet mass and radius, especially at high frequency. We quantify this dependence through the calculation of the characteristic frequency ν0 which gives us an estimate of the scale of the eigenvalue spectrum at high frequency. For the mass range 0.5 MJ MP 15 MJ , and fixing the planet radius to the Jovian value, we find that ν0 ∼ 164.0 × (MP /MJ ) 0.48 μHz, where MP is the planet mass and MJ is Jupiter’s mass. For the radius range from 0.9 to 2.0 RJ , and fixing the planet’s mass to the Jovian value, we find that ν0 ∼ 164.0 × (RP /RJ ) −2.09 μHz, where RP is the planet radius and RJ is Jupiter’s radius. We explore the influence of the presence of a dense core on the pulsation frequencies and on the characteristic frequency of giant exoplanets. We find that the presence of heavy elements in the envelope affects the eigenvalue distribution in ways similar to the presence of a dense core. Additionally, we apply our formalism to Jupiter and Saturn and find results consistent with both the observational data of Gaulme et al. and previous theoretical work.|
|Electronic Publication Date:||21-Jan-2013|
|Citation:||Le Bihan, Bastien, Burrows, Adam. (2013). Pulsation Frequencies and Modes of Giant Exoplanets. apj, 764 (18 - 18. doi:10.1088/0004-637X/764/1/18|
|Type of Material:||Journal Article|
|Journal/Proceeding Title:||Astrophysical Journal|
|Version:||Final published version. This is an open access article.|
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