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 was an amateur radio operator, license W8JK, and made many technical contributions to amateur radio, particularly his development of the close-spaced directional array. His father was scientistEdward Henry Kraus.
Before World War II Kraus developed antennas including the corner reflector and W8JK close-spaced array. He also helped construct and operate the University of Michigan 100 ton cyclotron, then the world's most powerful particle accelerator.[3]
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 countermeasuresatHarvard University.[4]
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.[5] 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.[6]
In 1958, while he was at Ohio State, Kraus used the signal of radio station WWV to track the disintegration of RussiansatelliteSputnik 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, 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.[7][8]
Antennas, 1950, 1st edition, published by McGraw-Hill was a textbook in which the helical antenna Kraus invented is described in detail. The book was referred to by many[who?] as the Antenna Bible.[citation needed][9] The second edition also single-handedly authored by Kraus was published in 1988 was a major upgrade of the work, incorporating the latest developments, though lacking some of the details of the first edition, to which the second frequently refers for mathematical deductions. For the third edition Ronald J. Marhefka joined Kraus as author and editor with many chapters written by experts in their field. The book was updated with respect to computer modeling and terahertz waves, and its title was changed to Antennas for all Applications:
Antennas for all Applications, Kraus, Ronald J. Marhefka, McGraw-Hill 2002 (ISBN007123201X).
Big Ear 1976, Big Ear Two: Listening for Other-Worlds 1994.
Electromagnetics, published by Mc-Graw Hill (ISBN0071164294) 1953.
Our Cosmic Universe 1980.
Radio Astronomy, published by Cygnus-Quasar (ISBN0070353921) 1966.
An updated second edition was released in 1986 in a spiral-bound form.
^David W. Swift, SETI Pioneers: Scientists Talk About Their Search for Extraterrestrial Intelligence 1990, University of Arizona Press. 434 pages. ISBN0816511195.