Title :
Distribution of ultra-stable reference frequency signals over fiber optic cable (for radiotelescopes)
Author :
Primas, L. ; Logan, R. ; Lutes, G. ; Maleki, L.
Author_Institution :
Jet Propulsion Lab., California Inst. of Technol., Pasadena, CA, USA
Abstract :
Radiotelescope systems, which operate primarily at microwave frequencies, are used for radio and radar astronomy, very large baseline interferometry (VLBI), geodynamic measurements, and spacecraft navigation. Experimenters have struggled for years to overcome the deficiencies of metallic coaxial cables and waveguides which have limited the stability and accuracy of measurements made with radiotelescope systems. Advances in fiber optic technology are on the verge of eliminating transmission lines as the major source of error in these systems. A description is given of high-stability fiber optic links which are used to distribute reference frequencies over distances as far as 29 km. Reference signals generated by hydrogen masers are distributed over these links and maintain a stability of 1 part in 10/sup 15/ for 1000-s averaging times.<>
Keywords :
frequency measurement; frequency stability; measurement standards; optical fibres; radioastronomical techniques; radiowave interferometry; time measurement; 29 km; H masers; VLBI; averaging times; fiber optic cable; fiber optic technology; geodynamic measurements; high-stability fiber optic links; microwave frequencies; radar astronomy; radiotelescope systems; reference frequencies distribution; spacecraft navigation; stability; ultra-stable reference frequency signals; very large baseline interferometry; Astronomy; Extraterrestrial measurements; Microwave frequencies; Optical fiber cables; Optical fibers; Optical waveguides; Radar measurements; Spaceborne radar; Stability; Transmission line measurements;
Conference_Titel :
Microwave Symposium Digest, 1990., IEEE MTT-S International
Conference_Location :
Dallas, TX
DOI :
10.1109/MWSYM.1990.99565
