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Finite-amplitude Adiabatic Oscillations of Super-massive Stars

Published online by Cambridge University Press:  25 April 2016

R. Van Der Borght
R. Van Der Borght*
Affiliation:
Department of Mathematics, Monash University, Melbourne
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Extract

As shown recently by Y. Osaki super-massive stars with mass M < 3.5 × 105M⊙ can, in the absence of rotation, reach the hydrogen-burning main sequence before the onset of general relativistic instability. Such objects are then pulsationally unstable. A considerable simplification is introduced if one considers only very massive stars, for which the relative amplitude of the fundamental mode of oscillation is practically constant. This sets a lower limit of 104M⊙ to the mass that can be considered. The upper limit is also reduced to 2 × 105M⊙ if one neglects the relativistic correction. One necessary step in the study of non-linear oscillations of massive stars is to derive a differential equation for the adiabatic pulsations. The relativistic correction could be taken into account in the following way.

Type
Contributions
Information
Publications of the Astronomical Society of Australia , Volume 1 , Issue 3 , February 1968 , pp. 87 - 88
Copyright
Copyright © Astronomical Society of Australia 1968

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References

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