- Lowell Observatory Near-Earth-Object Search
Lowell Observatory Near-Earth-Object Search (LONEOS) was a project designed to discover
asteroids andcomets that orbit near the Earth. The project, funded byNASA , was directed by Dr. Ted Bowell ofLowell Observatory in Flagstaff, Arizona. The LONEOS project began in 1993 and ran until the end of February 2008.Hardware
LONEOS, in its final configuration, used a 0.6-meter f/1.8
Schmidt telescope , acquired fromOhio Wesleyan University in 1990, and a Lowell-built 16megapixel CCD detector. This combination of instruments provided a field of view of 2.88 by 2.88 degrees (8.3 square degrees). It had a maximum nightly scan area of about 1,000 square degrees (covered four times). The instrument could cover the entire accessible dark sky in about a month. The CCD has detected asteroids as faint asvisual magnitude 19.8 but its typical limiting visual magnitude was 19.3. The instrument is located at Lowell Observatory's dark sky site, Anderson Mesa, near Flagstaff, Arizona, USA.Four computers were used. Two were used for frame reductions, one for telescope pointing control and one for camera control. The camera control software had scripting capability and could control all the other computers.
Technique
Asteroids were found by obtaining four pictures (frames) of the same region of sky, each frame temporally separated by 15 to 30 minutes. The set of four frames were then submitted to reduction software which located all star-like sources on the frame and identified sources that moved with asteroid-like motion. The observer visually examined all asteroid detections that had motion different from a typical main-belt asteroid. Human examination was required because most putative NEO detections were not real but some kind of imaging artifact.
All asteroid positions were converted to
equatorial coordinates . Various USNO star catalogs [http://www.nofs.navy.mil/data/fchpix/] were used for this conversion until 2007. Then theSloan Digital Sky Survey catalog was used, along with supplemental information from the Carlsberg Catalog [http://www.ast.cam.ac.uk/~dwe/SRF/cmc14.html] and the2MASS catalog. Asteroid brightness was converted to standardvisual magnitude . These data, along with the time of the observations, were sent to theMinor Planet Center (MPC) from which they were distributed to the scientific community. Potential near-Earth objects were handled expeditiously so that other observers could locate the asteroid on the same night and make further observations.Telescope operation was automated to the extent that the survey could be run all night without observer intervention. However, the telescope was seldom operated in the automatic mode because an observer was required to reduce data promptly and to correct any malfunctions that might have occurred.
Other Surveys
During the period of LONEOS operation, several other NASA funded NEO searches were underway. These projects include LINEAR, Catalina,
Spacewatch , and NEAT. Amateur observers made a significant contribution during this time with independent NEO discoveries and by performing follow-up observations of recent discoveries made by the NASA sponsored surveys [http://tech.groups.yahoo.com/group/mpml/messages] .LONEOS Discovery and Performance Statistics
The table below lists the number of discoveries made by LONEOS each year of operation. Asteroids thought to be larger than one kilometer in diameter were used as benchmarks in assessing survey completeness. Hence, some table elements have two numbers separated by a slash. The second number represents the number of discoveries larger than one kilometer. The column labeled "Asteroid Observations" is the number of observations sent to the MPC. Each asteroid was typically observed four times (once per frame) each night. [http://www.cfa.harvard.edu/iau/lists/YearlyBreakdown.html]
A complete list of LONEOS NEO observations can be found at the NeoDys [http://newton.dm.unipi.it/cgi-bin/neodys/neoibo?sites:699;obs;1;200] web site.
Other Science
The LONEOS frame archive provides a data set with wide spatial and temporal sky coverage. Other investigators have used these characteristics to produce the following research papers and presentations.
- Investigating the Distinct Components of the Galactic Stellar Halo RR Lyrae from the LONEOS-I Survey, American Astronomical Society, AAS Meeting #211, #163.02, Huber, Mark; Miceli, A.; Cook, K. H.; Rest, A.; Narayan, G.; Stubbs, C. W.
- Evidence for Distinct Components of the Galactic Stellar Halo from 838 RR Lyrae Stars Discovered in the LONEOS-I Survey, eprint arXiv:0706.1583,Miceli, A.; Rest, A.; Stubbs, C. W.; Hawley, S. L.; Cook, K. H.; Magnier, J.Johal, E. A.; Krisciunas, K.; Bowell, E.; Koehn, B.
- Detecting variable objects with the LONEOS photometric database: 15000 square degrees of variability measurements down to 19th magnitude in R, American Astronomical Society, 199th AAS Meeting, #101.10; Bulletin of the American Astronomical Society, Vol. 33, p.1463, Rest, A.; Miceli, A.; Miknaitis, G.; Covarrubias, R.; Stubbs, C.; Magnier, E.; Koehn, B.; Bowell, T.; Cook, K.; Krisciunas, K.
Highlights
- 1999 April 12, Shawn Hermann discovers an Aten, 1999 HF1, more than three kilometers in diameter. [http://www.cfa.harvard.edu/mpec/J99/J99H17.html]
- 1999 December 2, Bruce Koehn discovers the first Earth-crossing Damacloid, 1999 XS35, (later identified as a comet). [http://www.cfa.harvard.edu/mpec/J99/J99X19.html]
- 2001 August 14, Mike Van Ness discovers the second Earth-crossing Damacloid, 2001 OG108. [http://cfa-www.harvard.edu/mpec/K01/K01P40.html]
- 2003 September 27, Bob Cash finds the (then) closest Earth-crossing asteroid, 2003 SQ222. [http://cfa-www.harvard.edu/mpec/K03/K03T03.html]
- 2003 October 15, Brian Skiff recovers 1937 UB (Hermes), an asteroid lost for 66 years. [http://cfa-www.harvard.edu/mpec/K03/K03T74.html]
- 2004 May 20, Brian Skiff finds an asteroid, 2004 JG6, with the (then) smallest orbit. It is the second asteroid found that has an orbit entirely within Earth's orbit. [http://cfa-www.harvard.edu/mpec/K04/K04J60.html]
LONEOS staff
Lowell staff:
- Dr. Edward Bowell: Principal investigator
- Dr. Bruce Koehn: Computer programming
- Brian Skiff, Bill Ferris, Mike Van Ness, Shawn Hermann: Professional observers
- Christopher Onken, Jennifer Palguta, Wendy Kelly, Jason Sanborn, Thomas Grimstad, Lori Levy, Robert Cash, George Bliss, James Ashley: Volunteer observers
- Dr. Steve Howell, WIYN/NOAO: CCD performance modeling
- Dr. Karri Muinonen, University of Helsinki: Asteroid detection modeling
See also
* NASA's
Planetary Data System (PDS) [http://pdssbn.astro.umd.edu/]
*Minor Planet Center External links
* [http://asteroid.lowell.edu/asteroid/loneos/loneos.html LONEOS site]
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