[meteorite-list] Automated Telescope Array Discoveries Mount

[Ron Baalke]

Global Network of Astronomical Telescopes (GNAT)
Tucson, Arizona

Contacts:
Dr. Eric R. Craine, 520-325-4505, [EMAIL PROTECTED]

Embargoed until 27 May 2003, 12:30 p.m. CDT

AUTOMATED TELESCOPE ARRAY DISCOVERIES MOUNT

Astronomers are announcing today early results of a prototype, 
three-telescope array of automated astronomical imagers. These have been 
used to discover new Solar System objects, as well as to discover and 
monitor the time variable brightness of stars, especially those 
potentially harboring extrasolar planets. The report is being presented 
today by Dr. Eric R. Craine of the Global Network of Astronomical 
Telescopes (GNAT), Tucson, Arizona to the American Astronomical Society 
meeting in Nashville, Tennessee. The system is of special interest 
because of its very low cost, extremely high data output and application 
to myriad astronomical observations.

This array is named the Moving Object and Transient Event Search System 
(MOTESS). It was designed by Roy A. Tucker of Goodricke-Pigott 
Observatory (GPO), Tucson, Arizona. It was originally implemented for 
discovery and astrometric measurement of asteroids, but it is also used 
as a large-scale, cost-effective photometric monitoring instrument with 
large volume data handling techniques developed under direction of Dr. 
Eric R. Craine and Mark S. Giampapa of the National Solar Observatory 
(NSO), Tucson, Arizona. The prototype automated MOTESS observatory, 
located in Tucson, is a proof-of-principle system for a 48-telescope, 
globally distributed network planned by GNAT. During its first two years 
of automatic operation, MOTESS has yielded valuable observations of 
asteroids as well as stellar variability.

The MOTESS system is both cost-effective and productive. Costs for the 
telescope hardware are minimized through "scan-mode" operation, whereby 
each telescope in the array is pointed at a specific position in the sky 
with respect to the Earth. The view of the sky seen by each telescope 
changes by virtue of the rotation of the Earth, thereby scanning the sky 
across the field of view of each instrument. With no moving parts in the 
hardware system, costs of the prototype system were held at under 
$20,000, a fraction of the cost of more traditional, comparable 
telescopes. The telescopes make their observations automatically and 
continuously throughout the night, and hence remain unattended by human 
operators during that time. Since the cameras make one long, 
uninterrupted exposure throughout the night, there is no deadtime for 
moving the telescopes to new positions or inactivating camera recording 
while individual images are read out. Each image has a width nearly 
twice the full Moons diameter, and about 10-12 hours of time long, thus 
typically covering about 200 square degrees on the sky per night, per 
telescope in the array. During the course of a year, the system 
typically makes several observations per night of approximately 1.5 
million stars, as well as hundreds of asteroids and transient events.

Asteroid searches with the MOTESS system involve acquisition of triplets 
of images of select regions of the sky, each telescope contributing one 
of the images of the triplet each night. These images are aligned with 
respect to one another and they are alternately displayed in software 
such that moving objects are visually distinguished from the fixed 
background stars. Detection of asteroids as faint as 20-21 magnitude is 
possible with this system. During the first year of observation, 290 
newly discovered asteroids were measured. Naming rights for over 180 new 
asteroids have accrued to the program. Experience with this system is 
leading to data handling software which is expected to provide automated 
detection of such asteroids.

The MOTESS system is presently accumulating a catalog of three 
brightness observations per night of the 1.5 million stars in its 
current observing list. These observations are repeated nightly 
throughout the year, enabling the creation of long-term light curves for 
each of these stars. In the region of the sky along the celestial 
equator presently monitored, there are 179 known variable stars, all of 
which have been observed. In addition, examination of the light curves 
in this database indicate that there are approximately 55,000 newly 
discovered variable star candidates. These include stars that vary 
periodically, either due to eclipses by companion stars or by intrinsic 
internal pulsations, as well as stars which vary irregularly over long 
periods of time.

The MOTESS system is a pioneering complement to other planned major 
survey instruments, and it is a valuable test-bed for developing 
techniques of handling large volumes of specialized astronomical images. 
Combined discovery rates of asteroids as well as varyiable stars of many 
different types provides analysis opportunities which could occupy 
hundreds of students and researchers for many years to come. The flow of 
MOTESS data will triple by Spring of 2004 with the implementation of six 
more telescopes in the emerging network of scan-mode systems. GNAT is 
actively seeking collaborators interested in studying and analyzing 
these interesting new objects.

For more information, see:
http://www.gnat.org/~ida/gnat/index.html

IMAGE CAPTION:
[http://www.gnat.org/~ida/gnat/pr/MOTESS-PR1.JPG]
The MOTESS prototype system produces continuous images during the course 
of each night of observation which, when reproduced with a 30-inch 
width, stretch for over 180 yards in length. The inset shows the size of 
the Full Moon in one of the images. These images are currently produced 
three times during each night of observation and contain images of 
nearly 1.5 million stars during the course of a year.





______________________________________________
Meteorite-list mailing list
[EMAIL PROTECTED]
http://www.pairlist.net/mailman/listinfo/meteorite-list