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| Organization | Tel Aviv University | ||||||
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| Observatory code | 097  | ||||||
| Location | On the edge ofMakhtesh Ramon, nearMizpe Ramon,Israel | ||||||
| Coordinates | 30°35′50.6″N34°45′43.9″E / 30.597389°N 34.762194°E /30.597389; 34.762194 | ||||||
| Altitude | 875m | ||||||
| Established | 1971 | ||||||
| Website | Wise Observatory | ||||||
| Telescopes | |||||||
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  Location of Wise Observatory | |||||||
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30°35′50.6″N34°45′43.9″E / 30.597389°N 34.762194°E /30.597389; 34.762194The Florence and GeorgeWise Observatory (IAU code 097) is anastronomicalobservatory owned and operated byTel Aviv University.[1] It is located 5 kilometers (3.1 miles) west of the town ofMitzpe Ramon[1] in theNegev desert near the edge of theRamon Crater, and it is the only professional astronomical observatory inIsrael.
The observatory was founded in October 1971 as a collaboration betweenTel Aviv University and theSmithsonian Institution,[2] and named after the late Dr.George S. Wise, the first President of the Tel Aviv University. The observatory is a research laboratory of Tel Aviv University. It belongs to the Raymond and Beverly Sackler Faculty of Exact Sciences and it serves mainly staff and graduate students from the Department of Astronomy and Astrophysics of the School of Physics and Astronomy, and from the Department of Geophysics and Planetary Sciences. Traditionally, the Wise Observatory Director is appointed by Tel Aviv University's Dean of Exact Sciences from the senior academic staff of the Department of Astronomy and Astrophysics.
The directors of the Wise Observatory since its foundation were:
The number of clear nights (zero cloudiness) at the Wise Observatory site is about 170 a year. The number of useful nights, with part of the night cloud-free, is about 240. The best season, when practically no clouds are observed, is June to August, while the highest chance for clouds are in the period January to April. Winds are usually moderate, mainly from North-East and North. Storm wind velocities (greater than 40 kilometers per hour (25 miles per hour)) occur, but rarely. The wind speed tends to decrease during the night. Temperature gradients are small and fairly moderate. The average relative humidity is quite high, with a tendency to decline during the night from April to August.[3]
The averageseeing is about 2-3seconds of arc. A few good nights have seeing of 1" or less, while few show seeing larger than 5".
An important advantage of the Wise Observatory at its location of ~35°E in the Northern Hemisphere is the possibility of cooperating with observatories at other longitudes for time-series studies. Such projects involve searches for stellar oscillations within theWhole Earth Telescope project, monitoringgravitational microlensing events, combined ground and space observing campaigns, etc.
| (9804) 1997 NU | July 1, 1997 | [A] |
| (148094) 1999 GP6 | April 15, 1999 | [3] |
| (36031) 1999 NG64 | July 10, 1999 | [3] |
| 137217 Racah | July 8, 1999 | [1] |
| (249712) 2000 QU68 | August 24, 2000 | [3] |
| (139308) 2001 KH20 | May 22, 2001 | [3] |
| (193766) 2001 MW1 | June 18, 2001 | [3] |
| (239963) 2001 MX1 | June 18, 2001 | [3] |
| 128054 Eranyavneh | June 28, 2003 | [2] |
| (143644) 2003 OE3 | July 23, 2003 | [2] |
| 161315 de Shalit | August 19, 2003 | [2] |
| (163762) 2003 OH20 | July 25, 2003 | [2] |
| (170813) 2004 DW71 | February 25, 2004 | [2] |
| 172425 Taliajacobi | July 25, 2003 | [2] |
| (159871) 2004 QF17 | August 23, 2004 | [3] |
| (191671) 2004 QC20 | August 25, 2004 | [3] |
| (202002) 2004 QW7 | August 22, 2004 | [3] |
| (227033) 2005 AM26 | January 11, 2005 | [3] |
| (230635) 2003 QO3 | August 18, 2003 | [2] |
| (232498) 2003 QT5 | August 19, 2003 | [2] |
| (254166) 2004 QP5 | August 20, 2004 | [3] |
| (260585) 2005 EJ287 | March 5, 2005 | [3] |
| (317702) 2003 QN3 | August 17, 2003 | [2] |
| (323186) 2003 OE16 | July 24, 2003 | [3] |
| (323506) 2004 QF28 | August 23, 2004 | [3] |
| Discovery credited to: A E. O. Ofek 1 I. Manulis and A. Gal-Yam 2D. Polishook 3 Wise Observatory (as of 2016) | ||
|---|---|---|
A project to monitorphotometrically andspectroscopicallyActive Galactic Nuclei (AGNs) is still running, following about 30 years of data collection. Other major projects include searches forsupernovae andextrasolar planets (transiting or lensing), and investigations ofstar formation processes in galaxies through wide andnarrow-band filter imaging. Lately, some emphasis is put on studies ofNear Earth Objects (NEOs), with the research focus being the rotational properties of NEOs and of otherasteroids through the investigation of their light curves.
As of 2016, the Wise Observatory is credited by theMinor Planet Center with the discovery of 17 numberedminor planets during 1999–2007. Moreover, another 8 minor planets were discovered at the Wise Observatory, but are now credited to the individual astronomers such asDavid Polishook(see adjunct table and footnotes).[4]
The observatory operates a 1 meter (3.3 feet)-diameterBoller and Chivenstelescope, which is a wide-fieldRitchey-Chrétien reflector mounted on a rigid, off-axisequatorial mount. This telescope was originally a twin of theLas Campanas 1 mSwope telescope,[5] which was described by Bowen and Vaughan (1973), though the two instruments diverged somewhat during the years. It also has twoCCDcameras, a two-star "Nather-type"photometer, a "Faint-object spectrograph-camera" (FOSC), and an older Boller and Chivensspectrograph. The photoelectric photometer and the Boller and Chivens spectrograph have not been in use for more than a decade.
A dioptricfocal reducer (Maala) was used at f/7 to project a field of view almost one-degree wide on one of the CCDs (a SITe 2048x4096 pixel array) at the cost of slightly larger than optimalPSF sampling and some edge-of-field distortions. However, this instrument never produced satisfactory images and its use was discontinued.
A new CCD camera entered regular use in 2006: it is a Princeton Instruments Versarray with 1340×1300 pixels each 20 μm wide, with a peakquantum efficiency of 95% and good response in the blue part of the spectrum. Another camera was operated from the end of 2007 to about 2014; this is a CCD mosaic covering a one-degree non-contiguous field of view at f/7 in a single exposure (the LAIWO (Large Array Imager of the Wise Observatory) camera). This camera is composed of four 4096x4096 pixel non-butted Fairchild CCDs that are thick and front-illuminated, thus have a response peaking in the red with approximately 42% quantum efficiency. A smaller CCD with very high quantum efficiency and fast readout, centered between the four large CCDs, is used for guiding and fast photometry of selected objects. LAIWO was a cooperative endeavour of the Wise Observatory (PI: T. Mazeh) with theMax Planck Institute for AstronomyHeidelberg (PI: T. Henning).
A 46 centimeters (18 inches)prime-focus computer-controlled telescope was added to the Wise Observatory in 2005[1][6] mainly forminor planet CCD photometry purposes and funded by theIsrael Space Agency as part of a National Knowledge Center on Near Earth Objects. This is a Centurion-18 (C18)[7] that has been extensively modified by the observatory staff in a continuous effort to transform it into arobotic telescope. The telescope was originally equipped with a thermoelectrically cooled SBIG ST-10XME CCD camera with 2184x1472 pixels each 6.8 micrometres wide, each subtending slightly more than one arcsec at the telescope prime focus. Since early-2009 this CCD was replaced by an SBIG STL-6303 CCD with 2048x3072 pixels, each 9 micrometers wide. The telescope and its camera, including the telescope dome, can be remotely operated.
A 70 cm (28-inch) prime-focus telescope, essentially the "big brother" of the C18 and called the Jay Baum Rich Telescope (JBRT), was added in 2013. This telescope has been commissioned and is in routine robotic operation.[8]
A 50 centimeters (20 inches) wide-field telescope has been installed in 2016 and is being commissioned. This telescope is a node of the Korean OWL-Net (Optical Wide-field patroL Network) that acquires and maintains orbital information of LEO satellites by purely optical means. OWL-Net is part of and is operated by theKorea Astronomy and Space Science Institute (KASI).[9]
Observations at the Wise Observatory are allocated on a semestrial basis for the periods from the beginning of April to the end of September (first semester) and from the beginning of October to the end of March the following year (second semester). The allocation is competitive and is based on the scientific merit of each proposal. The observing time is, in principle, open to qualified observers from all over the world. Over the years, most of the observing time during a given period has been allocated to one or two large, long-term, projects carried out by Tel Aviv faculty and graduate students.
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