Hipparcos Tycho catalog: surface density
Sloan Digital Sky Survey Telescope Technical Note
19970901
Walter A. Siegmund
Contents
Introduction
Astrometric calibration of the Sloan Digital Sky Survey (SDSS)
will be based on the ACT Reference Catalog of the U.S. Naval
Observatory. This catalog provides improved proper motions for the
Hipparcos
Tycho
catalog using data from the photographic plate based AC 2000
catalog. The ACT contains 93% of the Tycho catalog stars.
Below a certain frequency, telescope tracking errors are expected
to be measured and removed using the ACT catalog. The lower the
surface density of these stars on the sky, the more stringent the
requirement on telescope tracking error to avoid degrading the
astrometric accuracy of the SDSS. Consequently, it is useful to know
the surface density distribution of Tycho stars. For this purpose,
catalog entries for stars within 12°x6° region centered at
12h 20m right ascension and 33° declination were examined. This
region includes the north galactic pole and the center of the
northern survey. Stars brighter than V = 8.5 were excluded since they
are likely to saturate the astrometric CCDs.
Tycho catalog surface density
In Figure 1, the distribution in Johnson V magnitude of
all Tycho catalog entries for stars within
12°x6° region centered at 12h 20m right ascension and
33° declination is plotted. About 91% of the stars are
fainter than the V = 8.5 astrometric CCD saturation limit. The
parallax for these stars is plotted in Figure 2. A negative parallax
can occur when the measurement error is larger than the parallax.The
distribution of these stars on the sky is plotted in Figure 3. As one
might expect, clumps and holes are apparent.
The region between 180° and 190° right ascension and
30° and 35° declination (50 sq. deg.) was arbitrarily
divided into fifty rectangles 0.4° right ascension by 2.5°
declination. (Lines of constant right ascension are not parallel so
these are only approximately rectangles. This is ignored in the
following discussion. Its effect is to underestimate the surface
densities by a bit under 20%.) Such a 1 sq. deg. rectangle is scanned
by the leading or trailing astrometric array every 1.6 minutes of
time. The number of catalog entries in each rectangle was counted
(Figure 4). The mean surface density is 7.8 per sq. deg. and the
standard deviation is 2.9 per sq. deg. The minimum count was 1 and
the maximum count was 15. Rebinning the same data into forty-eight
overlapping 0.8° x 2.5° rectangles gives a mean of 7.8 per
sq. deg., a standard deviation of 2.2 per sq. deg., a minimum count
of 4 and a maximum of 24. These data are adequately described by a
normal distribution and have a standard deviation of root(N), i.e.,
they are consistent with shot noise.
Figure 1: Distribution of magnitude in
Johnson V. This is for the 510 stars from the Tycho catalog in a
12°x6° area in the center of the northern survey
region.
Figure 2: Distribution of parallax. This
is for the 462 stars from the Tycho catalog in a 12°x6°
area in the center of the northern survey region that are fainter
than V = 8.5.
Figure 3: Locations of Tycho catalog
stars. This is for the 462 stars from the Tycho catalog in a
12°x6° area in the center of the northern survey region
that are fainter than V = 8.5.
Figure 4: Surface density distribution.
This is a histogram of the number of stars in each of fifty 0.4°
x 2.5° rectangles that tile 180° to 190° right
ascension and 30° to 35° declination.
Conclusions:
The Tycho catalog has a mean surface density of 7.8 per sq. deg.
in a 50 sq. deg. region at the north galactic pole. Correcting for
the cosine of the declination, the density is 9.3 per sq. deg. This
is not significantly different than the 10 per sq. deg. quoted in the
SDSS NASA
proposal (the black book). The number of stars in fifty 1 sq.
deg. rectangles (0.4° right ascension by 2.5° declination
and corresponding to a drift scan interval of 1.6 minutes) varies
from 1 to 15 per rectangle. The distribution is gaussian and the
standard deviation is consistent with shot noise, i.e., root(N).
Date created: 09/01/97
Last modified: 01/26/98
Copyright © 1997, 1998, Walter A. Siegmund
Walter A. Siegmund
siegmund@astro.washington.edu