Robert Weber (astronomer)

Minor planets discovered: 8[1]
8409 Valentaugustus 28 November 1995 list
11602 Miryang 28 September 1995 list
12005 Delgiudice 19 May 1996 list
23612 Ramzel 22 January 1996 list
26906 Rubidia 22 January 1996 list
37687 Chunghikoh 30 August 1995 list
39645 Davelharris 31 August 1995 list
(285178) 1996 OZ 18 July 1996 list

Robert Weber (1926–2008) was an American astronomer and discoverer of minor planets who ran the precursor to the LINEAR project shortly before his retirement in 1996. Data were collected by manually entering telescope pointing positions and requesting an image save. Searching twenty fields was a taxing experience. They did have automatic object detection working, but no starfield matching at that time.[2]

The inner main-belt asteroid 6181 Bobweber, discovered by Eleanor Helin at Palomar Observatory in 1986, was named in his honour on 21 March 2008.(M.P.C. 62353).[2][3]

Career

Weber graduated from the MIT Department of Physics in 1959 , and was with the MIT Lincoln Laboratory in Lexington for 34 years (19621996) . He also worked on sounding rockets, and interplanetary particles and fields with the Helios, Voyager, and IMP programmes.

He led the team that developed the prototype for the Air Force GEODSS deep space satellite tracking network (the two LINEAR telescopes are GEODSS assets that were originally destined for Portugal). He is also responsible for the project that led to the development of the CCID16 CCD chip used in the LINEAR cameras, a natural consequence of earlier work in solid state physics.

Discovered minor planets

Publications by Robert Weber

Confirmation of the following publications can be found at the following websites: http://libraries.mit.edu/archives/ http://prola.aps.org/ http://www.iop.org/EJ/journal/0022-3727

(1959) The resonant-frequency shift of a microwave cavity caused by the high-density plasma in semiconductors, as a function of magnetic field. Physics. Cambridge, Massachusetts Institute of Technology. Science Doctorate.

(1961) Robert Weber & P.E. Tannenwald, "Exchange Integral in Cobalt from Spin-Wave Resonance." The Physical Review 121(3): 715.

(1963) Tannenwald, P. E. & Robert Weber, "Second-Order Exchange Interactions from Spin Wave Resonance." The Journal of Physics and Chemistry Solids 24: 1357-1361.

(1964) "Ultrasonic Measurements in Normal and Superconducting Niobium." The Physical Review 133(6A): A1487-A1492.

(1965) Tannenwald, P. E. & Robert Weber, "Long-Range Exchange Interactions from Spin-Wave Resonance." The Physical Review 140(2A): A498-A506.

(1966) Robert Weber & P.E. Tannenwald, "Temperature Variation of the Spin-Wave Dispersion Relation." Journal of Applied Physics 37(3): 1058-1059.

(1966) "Comparative Data on CdS Transducers from 14 Mc/s to 70 Gc/s." Proceedings of the IEEE 54(2): 333-334.

(1966) "Electron Bombardment Technique for Deposition of CdS Film Transducers." The Review of Scientific Instruments 37(7): 955-956.

(1969) Robert Weber &. M. H. S., "Nuclear Linewidth Measurements of 55Mn In Antiferromagnetic CsMnF3 and RbMnF3." Solid State Communications 7: 619-622.

(1968) Tannenwald, P. E. & Robert Weber, "Comments on Standing Spin-Wave Resonance in 'Flash-Evaporated' Permally Films." Physical Review Letters 20(17): 918-919.

(1968) "Magnon-Phonon Coupling in Metallic Films." The Physical Review 169(2): 451-456.

(1968) "Observation of Magnetoelastic Coupling by Spin-Wave Resonance." Journal of Applied Physics 39(2 (Part I)): 491.

(1968) "Spin-Wave Resonance." IEEE Transactions on Magnetics Mag-4(1): 28-31.

(1970) Robert Weber, P.E Tannenwald and C.H Bajorek, "Intensities of Spin-Wave Resonand Modes in Thin Films." Applied Physics Letters 16(1): 35-37.

(1971) MSFN/DSN Integration Program for the DSS 11 26-m Antenna Prototype Station. The Deep Space Network Progress Report, TR 32-1526, March and April 1971. MIT: 197-202.

(1974) Robert Weber & T.H. Brooks. The limits of detectability of a low-light-level point-source sensor as a function of telescope aperture, sensor resolution, night-sky background, and pre-readout electron gain. MIT.

(1974) Visual Magnitude Flux Rate Density Standards for Sunlight Incident on Photoemissive Surfaces. MIT.

(1976) The detection capabilities of gallium arsenide and s-20 photo multiplier tubes to go-type, point source, signals. MIT.

(1976) Nominal event support: The observation of synchronous satellite number 83594 by GEODSS on days 181,182,183 and 184 1976 (UTC). MIT.

(1976) Predicted and measured detection capabilities of the Lincoln ETS, photon-noise-limited, elector-optical systems. MIT.

(1977) The amplitude effect of point-source blooming as a function of background level in ebsicon-type camera tubes. MIT.

(1977) Field-Testing and Evaluation of the TRW Streak MTI System. MIT.

(1977) Photoemissive and electroemissive surfaces and sandwiches. MIT.

(1978) The ground-based electro-optical detection of deep-space satellites. Applications of electronic imaging systems; Proceedings of the Seminar, Washington, D.C., March 30, 31, 1978 (A79-17202 05-35) Bellingham, Washington, Society of Photo-Optical Instrumentation Engineers: 59-69.

(1978) Limiting point-source detection capabilities of two-dimensional, scanned, optical detector arrays in constant false-alarm systems. MIT.

(1978) The passive, ground-based, electro-optical detection of synchronous satellites. MIT.

(1979) Large-format Ebsicon for low-light-level satellite surveillance. Recent Advances in TV Sensors and Systems. San Diego, California, Society of Photo-Optical Instrumentation Engineers.

(1979) "Passive ground-based electro-optical detection of artificial earth satellites." Optical Engineering 18(1): 82-91.

(1979) Updated 2005. Some Field Test Results - Teal Amber CCD Sensor, MIT.

(1981) "Large-Format Ebiscon for Low Light Level Satellite Surveillance." Optical Engineering 20(2): 212-215.

(1983) Optical detection loss due to air-borne salts on Diego Garcia. MIT.

(1983) Perturbations on the reception characteristics of antennas on Diego Garcia due to the presence of a GEODSS site. MIT.

(1985) Dwell-in-Dell Detection - Design and Performance Implications, MIT.

(1992) The Transportable Optical System (TOS): A Comprehensive Overview, MIT.

Robert Weber should not be confused with the Technical University of Vienna's Robert Weber, or the U.S. Court of International Trade's Robert Weber.

References

  1. "Minor Planet Discoverers (by number)". Minor Planet Center. 4 September 2016. Retrieved 26 September 2016.
  2. 1 2 "6181 Bobweber (1986 RW)". Minor Planet Center. Retrieved 26 September 2016.
  3. "MPC/MPO/MPS Archive". Minor Planet Center. Retrieved 26 September 2016.
  4. "JPL Small-Body Database Browser: 8409 Valentaugustus (1995 WB43)" (2016-05-30 last obs.). Jet Propulsion Laboratory. Retrieved 26 September 2016.
  5. "JPL Small-Body Database Browser: 11602 Miryang (1995 ST54)" (2016-06-13 last obs.). Jet Propulsion Laboratory. Retrieved 26 September 2016.
  6. "JPL Small-Body Database Browser: 12005 Delgiudice (1996 KA3)" (2015-12-14 last obs.). Jet Propulsion Laboratory. Retrieved 26 September 2016.
  7. "JPL Small-Body Database Browser: 23612 Ramzel (1996 BJ4)" (2015-07-17 last obs.). Jet Propulsion Laboratory. Retrieved 26 September 2016.
  8. "JPL Small-Body Database Browser: 26906 Rubidia (1996 BH4)" (2016-03-19 last obs.). Jet Propulsion Laboratory. Retrieved 26 September 2016.
  9. "JPL Small-Body Database Browser: 37687 Chunghikoh (1995 QB10)" (2016-08-11 last obs.). Jet Propulsion Laboratory. Retrieved 26 September 2016.
  10. "JPL Small-Body Database Browser: 39645 Davelharris (1995 QC10)" (2016-01-13 last obs.). Jet Propulsion Laboratory. Retrieved 26 September 2016.
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