A SIGNAL PROCESSING SCHEME FOR REDUCING THE CAVITY PULLING FACTOR IN PASSIVE HYDROGEN MASERS

KENNETH M. UGLOW

Abstract: A passive hydrogen maser operates so as to cause a signal frequency, f5, to satisfy a selected criterion. The frequency fs which satisfies the criterion depends on the cavity resonance frequency, tc. The derivative of fs with respect to fc for fc = fs is called the PULLING FACTOR. Theoretically this factor can be zero with a computational criterion making use of complex signal voltage samples taken at several frequencies.
Published in: Proceedings of the 18th Annual Precise Time and Time Interval Systems and Applications Meeting
December 2 - 4, 1986
DuPont Plaza Hotel
Washington, DC
Pages: 621 - 629
Cite this article: UGLOW, KENNETH M., "A SIGNAL PROCESSING SCHEME FOR REDUCING THE CAVITY PULLING FACTOR IN PASSIVE HYDROGEN MASERS," Proceedings of the 18th Annual Precise Time and Time Interval Systems and Applications Meeting, Washington, DC, December 1986, pp. 621-629.
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