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词条 Merton E. Davies
释义

  1. Career

      National Reconnaissance (1947–1970)    Planetary Exploration (1965–2001)  

  2. References

  3. External links

{{Infobox scientist
| name = Merton E. Davies
| image = Merton E. Davies 2.jpg
| image_size =
| alt =
| caption =
| birth_name =
| birth_date = {{Birth date|1917|9|13}}
| birth_place = {{nowrap|St. Paul, Minnesota, U.S.}}
| death_date = {{Death date and age |2001|4|17|1917|9|13|mf=y}}
| death_place = Santa Monica, California, U.S.
| fields = {{Unbulleted list
| Planetary science
| workplaces = {{Unbulleted list
| RAND Corporation
| alma_mater = Stanford University – Mathematics (1938)
| thesis_title =
| thesis_url =
| thesis_year =
| doctoral_advisor =
| academic_advisors =
| doctoral_students =
| notable_students =
| known_for =
| awards = {{Unbulleted list
| George W. Goddard Award
| Talbert Abrams Award of the American Society of Photogrammetry
| spouse = Louise Darling
(3 children)
}}

Merton E. Davies (September 13, 1917 – April 17, 2001) was a pioneer of America's space program, first in earth reconnaissance and later in planetary exploration and mapping. He graduated from Stanford University in 1938 and worked for the Douglas Aircraft corporation in the 1940s. He worked as a member of RAND Corporation[1] after it split off from Douglas in 1948 and for the remainder of his career.

Career

National Reconnaissance (1947–1970)

Davies' early work was highly classified and included original analyses of materials, payloads, structures, and propulsion systems for missiles and spacecraft.[2][3][4][5][6][7][8]

Davies, along with Amrom Harry Katz, were early advocates of the United States' development of balloon and reconnaissance satellite technology (including CORONA).[9][10][11][12][13]

Davies made key contributions to US intelligence operations during critical periods of the Cold War.[14][15][16][17][18][19]

He was a member of the U.S. delegation to the Surprise Attack Conference in Geneva in 1958 and was later a consultant to the Arms Control and Disarmament Agency. In 1966 he was awarded the George W. Goddard Award for distinguished contributions to photo reconnaissance. In 1967 he served as a U.S. Observer on an inspection of foreign bases in Antarctica under terms of the Antarctic Treaty. He was awarded the Antarctic Service Medal by the U.S. Navy.

On August 18, 2000 he was acknowledged as one of the ten Founders of National Reconnaissance by the National Reconnaissance Office for his leadership and participation in national reconnaissance and inventing the Spin-Pan (torque compensating) camera concept.

Planetary Exploration (1965–2001)

In 1965 he participated in the first Jet Propulsion Laboratory (JPL) attempt to fly to Mars a tiny primitive spacecraft carrying the world’s first digital camera, Mariner 4, and the follow-on Mars flyby missions, Mariners 6 and 7. Then he went on to an unparalleled career in planetary exploration. He was a key member of the imaging teams of Mariners 6, 7, 9, and 10, of Voyagers 1 and 2 and Galileo and Cassini, of NEAR and Magellan.

He was responsible for creating the geodetic control net for the mapping of the surface of Mars, and thus had the honor of establishing its prime meridian.[20][21][22][23][24]

He invented the photogrammetric control point technique that provided the basic framework for all planetary surface mapping and coordinates systems of his era. His fundamental contributions to planetary mapping led to a long service on the International Astronomical Union (IAU) committees that named many of the surface features of Mercury, Venus and Mars and the satellites of Jupiter. Eventually he led the teams or was partially responsible for establishing the geodetic control net of almost all of the solid bodies of the solar system.[25][26][27][28][29][30][31][32][33][34][35][36][37]

He received the Talbert Abrams Award of the American Society of Photogrammetry in 1974. In 1998 he was elected a Fellow of the American Geophysical Union.

At the time of his death, he was credited with "single-handedly observing more of the solar system than any other human," by Torrence Johnson, Jet Propulsion Laboratory project scientist of Project Galileo.

The Martian crater Davies is named after him.

References

1. ^{{cite web | author= | date= | title=The Research and Development (RAND) Corporation Interviews | work=Record Unit 9536 | publisher=Smithsonian Institution Archives | url=http://siarchives.si.edu/collections/siris_arc_217704 | accessdate=9 March 2012}}
2. ^Augenstein, B. W., Roles and Impacts of RAND in the Pre-Apollo Space Pro gram of the United States, IAA-95- IAA.2.l.05, International Astronautical Conference, 1995.
3. ^Augenstein, B. W., R. G. Wilson, et al., Long-Range Surface-to-Surface Ramjet Missiles: Preliminary Investigations and Results, Santa Monica, Calif.: Project RAND, RA-15070, March 1, 1948.
4. ^Davies, M. E., C. R. Culp, and T. F. Higgins, Long-Range Surface-to-Surface Rocket and Ramjet Missiles: Structure and Weights, Santa Monica, Calif.: R-182, May 1, 1950.
5. ^Miller, J., The X-Planes, New York: Crown Publishers, 1988.
6. ^Lipp, J. E., and R. M. Salter, eds., Project Feed-Back, Summary Report (2 volumes), Santa Monica, Calif.:RAND, R-262, March 1, 1954.Augenstein, B. W., "A Revised Development Program for Ballistic Missiles of Intercontinental Range," Santa Monica, Calif.: RAND, Special Memorandum No. 21, February 8, 1954.
7. ^Davies, M. E., The FEED-BACK Simulation Pictures Taken at RCA, Santa Monica, Calif.: RAND, RM-1555-PR, September 16, 1955.
8. ^Davies, M. E., A. H. Katz, et al., A Family of Recoverable Reconnaissance Sat ellites, Santa Monica, Calif.: RAND, RM-2012, November 12, 1957.
9. ^Greer, K. E., "CORONA," CIA Studies in Intelligence, Supplement 17, Spring 1973.
10. ^McDonald, R. A., "CORONA: Success for Space Reconnaissance, a Look into the Cold War, and a Revolution for Intelligence," Photogrammetric Engineering and Remote Sensing, June 1995.
11. ^Day, D. A., ] . M. Logsdon, and B. Latell, eds., Eye in the Sky: The Story of the CORONA Spy Satellites, Washington, D.C.: Smithsonian Institution Press, 1998.
12. ^Taubman, P., Secret Empire-Eisenhower, the CIA, and the Hidden Story of America's Space Espionage, New York: Simon and Schuster, 2003.CIA 1977 Intelligence Monograph, Critique of the Codeword Compartment in the CIA, Center for the Study of Intelligence, TR/ 1M77-02J, TCS 4530-77, March 1977.
13. ^Davies, M. E., and A. H. Katz, "A Dim View of the Man in Space, or, We Don't Need Him for RECCE," Internal Note, Santa Monica, Calif.: RAND, January 13, 1958.
14. ^Richelson, J. T., "A 'Rifle' in Space: USAF's KH-7 Spy Satellite System Constituted a Major Advance in Overhead Intelligence Collection," Air Force Magazine, Vol. 8b, No. 6, June 2003.
15. ^Murray, B. C., and M. E. Davies,A Comparison of U S. and Soviet Efforts to Explore Mars, Santa Monica, Calif.: RAND, P-3285, January 1966. Also published in Science, Vol. 151, 1966.
16. ^Murray, B. C., and M. E. Davies, A Comparison of U S. and Soviet Efforts to Explore Mars, Santa Monica, Calif.: RAND, P-3285, January 1966. Also published in Science, Vol. 151, 1966.
17. ^Davies, M. E., and B. Murray, The Soviet Union's Zond 5: Is It Also a Planetary Spacecraft? Science, Vol. 162, pp. 245-246, 1968.
18. ^Murray, B. C., M. E. Davies, and P. K. Eckman, Planetary Contamination II. Soviet and U.S. Practices and Policies, Science, Vol. 155, pp. 1505-1511, 1967.
19. ^Hounshell, D., "The Cold War, RAND, and the Generation of Knowledge, 1946-1962," Santa Monica, Calif.: RAND, RP-729, 1998. (Reprinted from Historical Studies in the Physical and Biological Sciences, Vol. 27, No. 2, 1997).
20. ^Davies, M. E., and R. A. Berg, "Preliminary Control Net of Mars,"Journal of Geophysical Research, Vol. 76, No. 2, pps. 373-393, January 10, 1971.
21. ^Davies, M. E., and D.W.G. Arthur, "Martian Surface Coordinates," "The Mariner 9 Areograph ic Coordinate System," Journal of Geophysical Research, Vol. 78, No. 20, pp. 4355-4394, July 10, 1973.
22. ^Davies, M. E., and D.W.G. Arthur, "Martian Surface Coordinates," "The Mariner 9 Areographic Coordinate System," Journal of Geophysical Research, Vol. 78, No. 20, pp. 4355-4394, July 10, 1973.
23. ^De Vaucouleurs, M. E. Davies, and F. M. Sturms, Jr., "The Mariner 9 Areographic Coordinate System," Journal of Geophysical Research , Vol. 78, No. 20, pp. 4395-4404, July 10, 1973.
24. ^Davies, M. E., "Mariner 9: Primary Control Net," Photogrammetric Engineering, Vol. 39, No. 12, December 1973, pp. 1297-1302.
25. ^Davies, M. E., "Surface Coordinates and Cartography of Mercury," Journal of Geophysical Research, Vol. 80, No. 17, June 10, 1975.
26. ^Davies, M. E., S. E. Dwornik, D. E. Gault, and R. G. Strom, NASA Atlas of Mercury, NASA Scientific and Technical Information Office, 1978.
27. ^Robinson, M. S., M. E. Davies, T. R. Colvin, and K. Edwards, "A Revised Control Net for Mercury," journal of Geophysical Research, Vol. 104, El 2, pp. 30,847-30,852, 1999.
28. ^Davies, M. E., P. G. Rogers, and T. R. Colvin, "A Control Network of Triton," Journal of Geophysical Research, Vo l. 96, E l , pp. 15,675-15,681, 1991.
29. ^Thomas, P. C., M. E. Davies, T. R. Colvin, J. Oberst, P. Schuster, G. Neukum , M. H. Carr, A. McEwen, G. Schubert, M. J. S. Belton, and the Galileo Imaging Team, "The Shape of Io from Galileo Limb Measure ments," Icarus, 1998.
30. ^Carr, M. H., et al., "Evidence for a Subsurface Ocean on Europa" Nature, Vol. 391, pp. 363-365, 1998.
31. ^Davies, M. E., T. R. Colvin, M.J.S. Belton, J. Veverka, and P. C. Thomas, "The Direction of the North Pole and the Control Network of Asteroid 243 Ida," Icarus, Vol. 120, pp. 33-37, 1996.
32. ^Thomas, P. C., M.J.S. Belton, B. Carcich, C.R. Chapman, M.E. Davies, R. Sullivan, and J . Veverka, "The Shape of Ida," Icarus, Vol. 120, pp. 20-32, 1996.
33. ^Belton, M.J.S., B.E.A. Mueller, L. A. D'Amario, D. V. Byrnes, K. P. Klaasen, S. Synnott, H. Breneman, T. V. Johnson, P. C. Thomas, J. Veverka, A. P. Harch, M. E. Davies, W. J. Merline, C. R. Chapman, D. Davis, T. Denk, G. Neukum, J.-M. Petit, R. Greenberg, A. Storrs, and B. Zellner, "The Discovery and Orbit of 1993 (243) 1 Dactyl," Icarus, Vol. 120, pp. 185-199, 1996.
34. ^Veverka, J., P. C. Thomas, P. Helfenstein, P. Lee, A. Harch, S. Calvo, C. Chapman, M.J.S. Belton, K. Klaasen, T. V. Johnson, and M. Davies, "Dactyl: Galileo Observations of Ida's Satellite," Icarus, Vol. 120, pp. 200-211, 1996.
35. ^Davies, M. E., T. R. Colvin, M.J.S. Belton, J. Veverka, and P. C. Thomas, "The Direction of the North Pole and the Control Network of Asteroid 951 Gaspra," Icarus, Vol. 107, pp. 18-22, 1994.
36. ^Davies, M. E., T. R. Colvin, P. G. Rogers, P. G. Chodas, W. L. Sjogren, W. L. Akim, E. L. Stepanyantz, Z. P. Vlasova, and A. I. Zakharov, "The Rotation Period, Direction of the North Pole, and Geodetic Control Network of Venus," Journal of Geophysical Research , Vol. 97, £8, pp. 13,14 1-13,151, 1992.
37. ^Davies, M. E., and T. R. Colvin, "Lunar Coordinates in the Regions of the Apollo Landers," Journal of Geophysical Research, Vol. 105, E8, pp. 20,277-20,280, 2000.
  • Davies, M. E., and B. C. Murray, The View from Space, New York and London: Columbia University Press, 1971.
  • {{cite book| title=Mapping Mars: Science, Imagination, and the Birth of a World| first=Oliver| last=Morton| publisher=Picador USA| location=New York| date=2002| isbn=0-312-24551-3| pages=22–29| chapter=Mert Davies' Net}}

External links

  • [https://aas.org/obituaries/merton-edward-davies-1917-2001 American Astronomical Society Obituary]
  • [https://query.nytimes.com/gst/fullpage.html?res=9807E0DD1030F932A15757C0A9679C8B63 New York Times Obituary]
  • National Reconnaissance Press release
{{Authority control}}{{DEFAULTSORT:Davies, Merton}}

4 : 1917 births|2001 deaths|American astronomers|Burials at Valley Oaks Memorial Park

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