Abstract
A relatively direct technique of determining extragalactic distances is
described. The method relies on measuring the luminosity fluctuations
that arise from the counting statistics of the stars contributing the
flux in each pixel of a high signal-to-noise CCD image of a galaxy. The
amplitude of these fluctuations is inversely proportional to the
distance of the galaxy. This approach bypasses most of the successive
stages of calibration required in the traditional extragalactic distance
ladder; the only serious drawback to this method is that it requires an
accurate knowledge of the bright end of the luminosity function.
Potentially, this method can produce accurate distances of elliptical
galaxies and spiral bulges at distances out to about 20 Mpc. In this
paper, it is explained how to calculate the value of the fluctuations,
taking into account various sources of contamination and the effects of
finite spatial resolution, and the feasibility and limitations of this
technique are demonstrated via simulations and CCD images of M 32 and N
3379.
Original language | English (US) |
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Pages (from-to) | 807-815 |
Journal | Astronomical Journal |
Volume | 96 |
DOIs | |
State | Published - Sep 1 1988 |
Externally published | Yes |