Life, line Q, spin-exchange tuning and stability of atomic hydrogen maser frequency standards

Life, line Q, spin-exchange tuning and stability of atomic hydrogen maser frequency standards

It is shown that the STSC (Sigma Tau Standards Corporation) design of the hydrogen maser may be expected to provide stable performance for periods of time measured in decades, without long-term interruption for recoating of the storage bulb, changing of pumps, or replenishment of hydrogen. In additi...

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Bibliographic Details
Published in:1993 IEEE International Frequency Control Symposium pp. 120 - 128
Main Authors: Owings, H.B., Koppang, P.A., MacMillan, C.C., Peters, H.E.
Format: Conference Proceeding
Language:English
Published: IEEE 1993
Subjects:
Extraterrestrial measurements
Frequency
Hydrogen storage
Laboratories
Masers
Oscillators
Stability
Standards development
Tuning
Vacuum systems
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Summary:It is shown that the STSC (Sigma Tau Standards Corporation) design of the hydrogen maser may be expected to provide stable performance for periods of time measured in decades, without long-term interruption for recoating of the storage bulb, changing of pumps, or replenishment of hydrogen. In addition, instability or interruption due to degradation of line Q or systematic errors associated with the cavity automatic tuner was shown to be very small. The masers do have some initial change in frequency with time, and this is believed to be due to changes in the interaction of the hydrogen atoms with the wall of the storage bulb. The initial drift is very small, however, typically less than 2 /spl times/ 10/sup -15//day, and it disappears with a time constant of between six months and one year. Thus, for most of the operational life of the maser, the long-term drift is so small as to be inconsequential for all present applications.< >
ISBN:0780309057
9780780309050
DOI:10.1109/FREQ.1993.367386