6533b829fe1ef96bd12897ab
RESEARCH PRODUCT
Relativistic MHD simulations of stellar core collapse and magnetars
Nikolaos StergioulasPablo Cerdá-duránMichael GablerEwald MüllerJosé A. Fontsubject
PhysicsHistoryOscillationGeneral relativityCollapse (topology)MagnetarInstabilityComputer Science ApplicationsEducationMagnetic fieldClassical mechanicsHarmonicsQuantum electrodynamicsMagnetohydrodynamicsdescription
We present results from simulations of magneto-rotational stellar core collapse along with Alfven oscillations in magnetars. These simulations are performed with the CoCoA/CoCoNuT code, which is able to handle ideal MHD flows in dynamical spacetimes in general relativity. Our core collapse simulations highlight the importance of genuine magnetic effects, like the magneto-rotational instability, for the dynamics of the flow. For the modelling of magnetars we use the anelastic approximation to general relativistic MHD, which allows for an effective suppression of fluid modes and an accurate description of Alfven waves. We further compute Alfven oscillation frequencies along individual magnetic field lines with a semi-analytic approach. Our work confirms previous results based on perturbative approaches regarding the existence of two families of quasi-periodic oscillations (QPOs), with harmonics at integer multiples of the fundamental frequency. Additional material is presented in the accompanying contribution by Gabler et al (2010b) in these proceedings.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2011-02-01 | Journal of Physics: Conference Series |