MIDLATITUDE F REGION DENSITIES AND TEMPERATURES AT SUNSPOT MINIMUM

Abstract

Results obtained for F region densities and temperatures using the Millstone Hill Ionospheric Radar for the year 1964 are presented. The measurements were made during 30-hour periods which followed at intervals of about two weeks throughout the year. The data obtained in each month have been averaged to yield a mean electron density profile and mean ion and electron temperature curves for each hour in the day. These curves were in turn used to construct plots showing contours of constant temperature and density as functions of altitude and time for each month. In addition, the annual variation of the midday and midnight densities and temperatures was obtained. The seasonal anomaly in the F region peak electron density is evident though less pronounced than at years of high sunspot number. The F region layer thickness undergoes a smooth transition from winter to summer, being greatest in summer. It is shown that the daytime temperatures exhibit no marked seasonal dependence, and hence temperature effects (e.g., on reaction rates) cannot be invoked as the cause. The most striking nighttime phenomenon is the high electron temperature encountered in winter (Te/Ti approximately equals 2.0) compared with summer. Evidence is presented for the existence of a flux of fast photoelectrons arriving from the conjugate ionosphere. The nighttime heating of the F region is thought to be caused by heat conducted down from the protonosphere together, in winter months, with the flux of fast photoelectrons from the conjugate hemisphere. During the daytime, heat appears to be conducted down through the 500-km altitude level at a rate of approximately equals 5 x 10 to the 9th power eV/sq cm/sec.

Document Details

Document Type

Technical Report

Publication Date

Aug 21, 1967

Accession Number

AD0658837

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