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Dynamical non-axisymmetric instabilities in rotating relativistic stars

G. M. MancaDipartimento di Fisica, Università di Parma and INFN, Parma, ItalyLuca BaiottiMax-Planck-Institut für Gravitationsphysik, Albert-Einstein-Institut, Golm, GermanyR. De PietriDipartimento di Fisica, Università di Parma and INFN, Parma, ItalyLuciano RezzollaDepartment of Physics and Astronomy, Louisiana State University, Baton Rouge, LA, USA
2007en
ABI

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We present new results on dynamical instabilities in rapidly rotating neutron-stars. In particular, using numerical simulations in full General Relativity, we analyse the effects that the stellar compactness has on the threshold for the onset of the dynamical bar-mode instability, as well as on the appearance of other dynamical instabilities. By using an extrapolation technique developed and tested in our previous study [1], we explicitly determine the threshold for a wide range of compactnesses using four sequences of models of constant baryonic mass comprising a total of 59 stellar models. Our calculation of the threshold is in good agreement with the Newtonian prediction and improves the previous post-Newtonian estimates. In addition, we find that for stars with sufficiently large mass and compactness, the m=3 deformation is the fastest growing one. For all of the models considered, the non-axisymmetric instability is suppressed on a dynamical timescale with an m=1 deformation dominating the final stages of the instability. These results, together with those presented in [1], suggest that an m=1 deformation represents a general and late-time feature of non-axisymmetric dynamical instabilities both in full General Relativity and in Newtonian gravity.

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