Axial instability of rotating relativistic stars
نویسندگان
چکیده
Perturbations of rotating relativistic stars can be classified by their behavior under parity. For axial perturbations (r-modes), initial data with negative canonical energy is found with angular dependence e for all values of m ≥ 2 and for arbitrarily slow rotation. This implies instability (or marginal stability) of such perturbations for rotating perfect fluids. This low m-instability is strikingly different from the instability to polar perturbations, which sets in first for large values of m. The timescale for the axial instability appears, for small angular velocity Ω, to be proportional to a high power of Ω. As in the case of polar modes, viscosity will again presumably enforce stability except for hot, rapidly rotating neutron stars. This work complements Andersson’s numerical investigation of axial modes in slowly rotating stars. Subject headings: ...
منابع مشابه
A new class of unstable modes of rotating relativistic stars
The first numerical study of axial (toroidal) pulsation modes of a slowly rotating relativistic star is presented. The calculation includes terms of first order in ǫ ≡ Ω √ R3/M << 1 (R is the radius, M is the mass and Ω is the rotation frequency of the star), and accounts for effects due to the coriolis force. Effects due to the centrifugal flattening of the star enter at order ǫ and are not in...
متن کاملImplications of the R-mode Instability of Rotating Relativistic Stars
Several recent surprises appear dramatically to have improved the likelihood that the spin of rapidly rotating, newly formed neutron stars (and, possibly, of old stars spun up by accretion) is limited by a nonaxisymmetric instability driven by gravitational waves. Except for the earliest part of the spin-down, the axial l=m=2 mode (an r-mode) dominates the instability, and the emitted waves may...
متن کاملStability and Rotational Mixing of Modes in Newtonian and Relativistic Stars
Almost none of the r-modes ordinarily found in rotating stars exist, if the star and its perturbations obey the same one-parameter equation of state; and rotating relativistic stars with one-parameter equations of state have no pure r-modes at all, no modes whose limit, for a star with zero angular velocity, is an axial-parity oscillation. Rotating stars of this kind similarly have no pure g-mo...
متن کاملSubmitted to the Astrophysical Journal Where are the r-modes of isentropic stars?
Where are the r-modes of isentropic stars? ABSTRACT Almost none of the r-modes ordinarily found in rotating stars exist, if the star and its perturbations obey the same one-parameter equation of state; and rotating relativistic stars with one-parameter equations of state have no pure r-modes at all, no modes whose limit, for a star with zero angular velocity, is a perturbation with axial parity...
متن کاملGravitational-Wave Driven Instability of Rotating Relativistic Stars
A series of recent surprises appear dramatically to have improved the likelihood that the spin of rapidly rotating, newly formed neutron stars is limited by a nonaxisymmetric instability driven by gravitational waves – and that the emitted waves may be detectable. The first of these was the discovery that the r-modes, rotationally restored modes that have axial parity for spherical models, are ...
متن کامل