R. C. Baird scite author profile

The refractive index of a gas is determined to high accuracy by measuring the change in the resonant frequency when the gas is admitted to a previously evacuated microwave cavity. This measurement was made at a frequency of 47.736 GHz, and is the first such measurement in this frequency range.The resonant frequency of the cavity is detected by means of a hybrid tee bridge circuit. When the cavity is matched to the waveguide the null at resonance is very sharp, and the frequency can be set to ±S parts in 10 8 • Two types of resonant structures were used in this measurement, a conventional cylindrical cavity and a Fabry-Perot resonator using one plane and one spherical mirror. Measurements were made with both structures on each of the gases, and the agreement between the two was within the limits of experimental error. Because the Fabry-Perot resonator has no side walls, air could be passed through it much more easily, and it is therefore preferred for use with moist air.The values of (n-1)X10 6 for the gases at O°C and 760 Torr are as follows: Dry C02 free air 288. 13±O.OS, Argon 277.48±O.OS, Carbon dioxide 49S.16±O.08, Helium 34.S1±O.OS, Hydrogen 13S.77±O.OS, Nitrogen 293.81±O.07, Oxygen 266.9S±O.OS.The primary values of these results lies in their increased accuracy over previous measurements and their confirmation of existing accurate data on these gases. In addition the use of the Fabry-Perot resonator as a refractometer is demonstrated and its advantages under certain conditions discussed.

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Recent experimental results in near-field antenna measurements

Baird

Newell

Wacker

et al. 1970

Electron. Lett. (UK)

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R. C. Baird

Accurate measurement of antenna gain and polarization at reduced distances by an extrapolation technique

Absolute Determination of Refractive Indices of Gases at 47.7 Gigahertz

Recent experimental results in near-field antenna measurements

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