Astronomy and Astrophysics – Astrophysics
Scientific paper
1999-08-19
Astronomy and Astrophysics
Astrophysics
17 pages, 4 figures, requires aaspp4.sty (submitted to the Astrophysical Journal)
Scientific paper
We investigate the gravitational lensing properties of dark matter halos with Navarro, Frenk & White (NFW) density profiles and derive an analytic expression for the radial dependence of the shear, $\gamma(x)$, due to these objects. In addition, we derive an expression for the mean shear interior to a given radius, $\bar{\gamma}(x)$, and use this to quantify systematic errors that will arise in weak lensing mass estimates of astronomical objects in the case that the mass estimate is based on an a priori assumption that the underlying potential is that of a singular isothermal sphere when, in fact, the potential is that of an NFW-type object. On mass scales between $10^{11} \Msun \ls M_{200} \ls 10^{15} \Msun$, the assumption of an isothermal sphere potential results in an overestimate of the halo mass, and the amount by which the mass is overestimated increases linearly with the value of the NFW concentration parameter. Considerable overestimates of the mass ($\sim 60%$) can occur for galaxy-sized halos, but for rich clusters the mass overestimate is small. The degree to which the mass is systematically in error is dependent upon the cosmology adopted, with a COBE-normalized standard CDM model yielding the largest systematic errors for a given true value of the halo mass.
Brainerd Tereasa G.
Wright Candace Oaxaca
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