Robert D. Maurer
Robert D. Maurer | |
---|---|
Born |
Arkadelphia, Arkansas | July 20, 1924
Nationality | United States |
Fields | physics |
Known for | optical fiber |
Dr. Robert D. Maurer (born July 20, 1924) is an American industrial physicist noted for his leadership in the invention of optical fiber.
Early life
Maurer was born either in Arkadelphia, Arkansas, or by other accounts in Richmond Heights, Missouri. In 1943 he enlisted in the United States Army Reserve and began studies at the University of Arkansas. He was quickly called up for active service, and studied preengineering for about one year at the Huntsville, Texas, state college. In 1944 he shipped overseas with the 99th infantry division for combat in France and Belgium along the German border. He was wounded by a landmine, spending more than 20 months in the hospital before receiving a disability discharge with Purple Heart.
Supported by the GI Bill, Maurer returned in 1946 to the University of Arkansas to study chemical engineering, but quickly switched to physics. He graduated with a B.S. in physics in 1948, then performed graduate work at Massachusetts Institute of Technology, where he measured second sound velocity in liquid helium. He took his orals in summer 1951, and graduated with a physics PhD in the winter class.
Corning
In 1952 Maurer joined the physics department of Corning Glass Works, becoming manager of its applied physics group in 1960, and ultimately research fellow in 1978. He retired from Corning Incorporated[1] in 1989.
Around 1966 Maurer learned of Charles K. Kao's pioneering work in optical fibers at the Standard Telephones and Cables company in the United Kingdom, and initiated a project to develop such fibers at Corning. In 1970 Maurer and his colleagues Donald Keck and Peter C. Schultz designed and produced the first fiber with optical losses low enough for use in telecommunications by a novel process of depositing titania-doped silica inside a quartz tube using a flame-hydrolysis process and sintering, then fusing it to draw into fiber. They demonstrated optical loss as low as 20 dB/km, which for the first time indicated a practical technology.
Honours and awards
Maurer is an elected member of the National Academy of Engineering (1979)[1] and inducted into the National Inventors Hall of Fame (1993),[2] and a fellow of the American Ceramic Society, Institute of Electrical and Electronics Engineers, and American Physical Society, and has received numerous honors including the American Institute of Physics' 1978 Prize for Industrial Physics, the 1978 IEEE Morris N. Liebmann Memorial Award,[3] the Swedish Academy of Engineering's 1979 L.M. Ericsson International Prize for Telecommunications, an honorary LL.D. Degree from the University of Arkansas in 1980, the Industrial Research Institute's 1986 Achievement Award, the 1987 John Tyndall Award from IEEE Lasers and Electro-Optics Society and Optical Society of America,[4] the 1989 Naval Research Laboratory Citation, the American Physics Society's 1989 International Prize for New Materials, the 1999 Charles Stark Draper Prize, the 2000 National Medal of Technology, and the 2007 NEC C&C Prize.
Patents
Maurer holds 16 patents, including:
- US Patent 3,659,915: Fused Silica Optical Waveguide; Method of Producing Optical Waveguide Fibers
- US Patent 3,711,262: Optical Fibers
References
Notes
- 1 2 "NAE Members Directory - Dr. Robert D. Maurer". NAE. Retrieved December 28, 2010.
- ↑ "Inventor profile - Robert D. Maurer". National Inventors Hall of Fame. Retrieved December 28, 2010.
- ↑ "IEEE Morris N. Liebmann Memorial Award Recipients" (PDF). IEEE. Retrieved December 26, 2010.
- ↑ "Award Winners - John Tyndall Award". IEEE Photonics Society. Retrieved December 27, 2010.
Further reading
- Jeff Hecht, City of Light: The Story of Fiber Optics, Oxford University Press, 1999. ISBN 978-0-19-510818-7.
- The American Ceramic Society Bulletin, August 2000
- National Medal of Technology
- Charles Stark Draper Prize
- NEC C&C Prize announcement
- University of Arkansas press release
- University of Arkansas Robert D. Maurer Lecture Series