John D. Kraus

John D. Kraus
Born (1910-06-28)June 28, 1910
Ann Arbor, Michigan, U.S.
Died July 18, 2004(2004-07-18) (aged 94)
Liberty Township, Delaware County, Ohio, U.S.[1]
Residence United States
Nationality American
Fields Physics
Institutions Ohio State University
Harvard University
University of Michigan
Alma mater University of Michigan
Notable awards IEEE Edison Medal (1985)

John Daniel Kraus (June 28, 1910 – July 18, 2004) was an American physicist known for his contributions to electromagnetics, radio astronomy, and antenna theory. His inventions included the helical antenna, the corner reflector, and several other types of antennas. He designed the Big Ear radio telescope at Ohio State University, which was constructed mostly by a team of OSU students and was used to carry out the Ohio Sky Survey. Kraus held a number of patents and published widely.[2]

Personal

QSL card of John Kraus sent to shortwave listener, 1933

Kraus was born in 1910 in Ann Arbor, Michigan. He received his Ph.D. in physics from the University of Michigan in 1933. In addition to his professional achievements, he also contributed greatly to amateur (ham) radio and held FCC call sign W8JK.

Career

Following the completion of his doctorate, Kraus was a member of the research team in nuclear physics at the University of Michigan, helping to design and build the school's new 100-ton cyclotron. During World War II he worked on degaussing ships for the United States Navy and on radar countermeasures at Harvard University.[3]

After the war, Kraus joined Ohio State University, later becoming the director of the Radio Observatory and McDougal Professor (Emeritus) of Electrical Engineering and Astronomy.[4] He supervised the Ohio Sky Survey which cataloged over 19,000 radio sources, more than half previously unknown, and later participated in the SETI survey conducted by Bob Dixon [5]

Sputnik I

In 1958, while he was at Ohio State, Dr. Kraus used the signal of radio station WWV to track the disintegration of Russian satellite Sputnik 1. Kraus knew that a meteor entering the upper atmosphere leaves in its wake a small amount of ionized air. This air reflects a stray radio signal back to Earth, strengthening the signal at the surface for a few seconds. This effect is known as meteor scatter. Kraus predicted that what was left of Sputnik would exhibit the same effect, but on a larger scale. His prediction was correct; WWV's signal was noticeably strengthened for durations lasting over a minute. In addition, the strengthening came from a direction and at a time of day that agreed with predictions of the paths of Sputnik's last orbits. Using this information, Dr. Kraus was able to draw up a complete timeline of Sputnik's disintegration. His data also led him to conclude that satellites do not fail as one unit. Instead, his data indicated that the spacecraft broke up into its component parts as it moved closer to the Earth.[6][7]

Bibliography

Honors and awards

See also

References

  1. http://www.bigear.org/JDKpassage-obit.htm
  2. Kawa, Barry: 'Big Ear' designer a pioneer in field, The Plain Dealer, September 18, 1994.
  3. "John D. Kraus". IEEE Global History Network. IEEE. Retrieved 25 July 2011.
  4. John D. Kraus, W8JK, SK, American Radio Relay League, 21 July 2004.
  5. David W. Swift, SETI Pioneers: Scientists Talk About Their Search for Extraterrestrial Intelligence 1990, University of Arizona Press. 434 pages. ISBN 0816511195.
  6. "Science Notes: Death of a Sputnik Traced by New Radio System". The New York Times. January 19, 1958. pp. E11. Retrieved 2009-11-03.
  7. "Science: Slow Death". Time. January 27, 1958. Retrieved 2009-11-03.
  8. "NAE Members Directory - Dr. John D. Kraus". NAE. Retrieved June 5, 2011.
  9. "Joseph Sullivant Medal Awards". Ohio State University. Retrieved June 7, 2011.
  10. "IEEE Edison Medal Recipients" (PDF). IEEE. Retrieved June 5, 2011.
  11. "IEEE Heinrich Hertz Medal Recipients" (PDF). IEEE. Retrieved June 5, 2011.
  12. "Past Awards" (PDF). IEEE Antennas and Propagation Society. Retrieved June 5, 2011.

External links

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