Harold R. Kaufman

Harold R. Kaufman (born 1926) is an American physicist, noted for his development of electrostatic ion thrusters for NASA during the 1950s and 1960s. Kaufman developed a compact ion source based on electron bombardment, the "Kaufman ion source," a variant of the duoplasmatron, for the purpose of spacecraft propulsion.

Biography

Born in Audubon, Iowa, USA, in 1926, Kaufman grew up in Evanston, Illinois, a suburb of Chicago.[1] He trained in electrical engineering during WWII through an electronic technician program in the US Navy. After the war ended, he took a B.S. degree in mechanical engineering from Northwestern University.[2] After college he joined the National Advisory Committee for Aeronautics (NACA), the predecessor of NASA, working on turbo jet engines[3] at the Lewis Research Center (now NASA Glenn) in Cleveland.[2]

He then moved to a group studying electric space propulsion. After concluding that a Von Ardenne source was insufficient, he developed the electron bombardment source in 1958/59.,[4] and was responsible for the development of two ion thrusters that were tested in space (SERT-1 and SERT-II missions).[1][5] The Kaufman ion source is now also used for other applications, such as ion implanters used in semiconductor processing.

He was awarded an Exceptional Scientific Achievement Award by NASA in 1971.

Kaufman was awarded a Ph.D. from Colorado State University in 1970, joining the university as staff in 1974.

He left academia in 1984 to work at Kaufman & Robinson, Inc., in Fort Collins, Colorado, and invented the end-Hall ion source in 1989.[1]

In 1991, the AVS awarded him its John A. Thornton Memorial Award.[1]

He is a Professor Emeritus of the CSU department of physics.[6]

References

  1. 1 2 3 4 Biography from AVS
  2. 1 2 http://pdf.aiaa.org/jaPreview/AIAAJ/1982/PVJAPRE51131.pdf
  3. notes6
  4. NASA Glenn, "SPACE ELECTRIC ROCKET TEST II (SERT II) (Accessed July 1, 2010)

External links

This article is issued from Wikipedia - version of the Sunday, April 24, 2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.