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Model a120

This page presents lightcurves for Model a120 produced using the KEPLER simulation code, and analysed following Lampe, Heger & Galloway (2015).

The curve presented here is as measured in the neutron star's Newtonian rest frame. To compare this to an observation it is necessary to apply redshift corrections. Instructions for doing this are provided in the companion paper and a summary is provided here

An averaged representation of this burst train is available click here


Lightcurve

The mean luminosity (green line, left-hand y-axis), is plotted with the lighter green band giving the 1-sigma error calculated from the variation in the lightcurves included in the average. The radius is shown in blue (right-hand y-axis)


Parameters

The following table presents the initial conditions for the model and if a burst occurred, the average burst parameters.

NameValueUnitDescription
modela120--Model ID
num23--Number of simulated bursts
z0.0%Metallicity mass fraction
h76.0%Hydrogen mass fraction
lAcc0.905--Accretion luminosity (1)
burstLength834.0 ± 54.4sBurst duration
peakLum3.98 ± 0.1110+30WPeak lumonisity
persLum9.56 ± 0.4610+28WPersistent luminsoity
fluence6.76 ± 0.2910+32WFluence
tau169.6 ± 5.4sEquivalent burst duration (tau)
tDel0.37 ± 0.02hRecurrence time
conv5.23 ± 0.96%Convexity
r10906.248 ± 0.166s10% rise time
r25905.25 ± 0.132s25% rise time
singAlpha0.46 ± 0.01--Power law decay index
singDecay80.04 ± 3.3sExponential decay timescale
alpha36.9 ± 2.9--Fluence ratio (alpha)
flag4--Analysis quality flag (2)

(1) The accretion rate is in terms of the Eddington accretion rate $(1.75 \times 10^{-8} \, \mathrm{M}_\odot \, \mathrm{yr}^{-1})$

(2) Guide To Analyis Flags

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Page last modified on December 21, 2015, at 06:57 PM