SIMBAD references

2011ApJ...736..108P - Astrophys. J., 736, 108 (2011/August-1)

Supernova fallback onto magnetars and propeller-powered supernovae.

PIRO A.L. and OTT C.D.

Abstract (from CDS):

We explore fallback accretion onto newly born magnetars during the supernova of massive stars. Strong magnetic fields (∼1015 G) and short spin periods (∼1-10 ms) have an important influence on how the magnetar interacts with the infalling material. At long spin periods, weak magnetic fields, and high accretion rates, sufficient material is accreted to form a black hole, as is commonly found for massive progenitor stars. When B ≲ 5x1014 G, accretion causes the magnetar to spin sufficiently rapidly to deform triaxially and produces gravitational waves, but only for ~50-200 s until it collapses to a black hole. Conversely, at short spin periods, strong magnetic fields, and low accretion rates, the magnetar is in the "propeller regime" and avoids becoming a black hole by expelling incoming material. This process spins down the magnetar, so that gravitational waves are only expected if the initial protoneutron star is spinning rapidly. Even when the magnetar survives, it accretes at least ~0.3 M, so we expect magnetars born within these types of environments to be more massive than the 1.4 M typically associated with neutron stars. The propeller mechanism converts the ∼1052 erg of spin energy in the magnetar into the kinetic energy of an outflow, which shock heats the outgoing supernova ejecta during the first ∼10-30 s. For a small ∼5 Mhydrogen-poor envelope, this energy creates a brighter, faster evolving supernova with high ejecta velocities ~(1-3)x104 km/s and may appear as a broad-lined Type Ib/c supernova. For a large ≳ 10 Mhydrogen-rich envelope, the result is a bright Type IIP supernova with a plateau luminosity of ≳ 1043 erg/s lasting for a timescale of ∼60-80 days.

Abstract Copyright:

Journal keyword(s): gravitational waves - stars: magnetic field - stars: neutron - supernovae: general

Simbad objects: 7

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