Abstract

Abstract. Experimental results from the Tromsø and Sura heating experiments at high and mid-latitudes are examined. It is shown that the combination of HF-induced target and bi-static HF Doppler radio scatter observations is a profitable method for probing medium-scale traveling ionospheric disturbances (TIDs) at high and mid-latitudes. HF ionospheric modification experiments provide a way of producing the HF-induced scatter target in a controlled manner at altitudes where the sensitivity to TIDs is highest. Bi-static HF Doppler radio scatter observations were carried out on the London-Tromsø-St. Petersburg path in the course of a Tromsø heating experiment on 16 November 2004 when the pump wave was reflected from an auroral Es-layer. During Sura heating experiments on 19 and 20 August 2004, when the HF pump wave was reflected from the F2 ionospheric layer, multi-position bi-static HF Doppler radio scatter observations were simultaneously performed at three reception points including St. Petersburg, Kharkov, and Rostov-on-Don. Ray tracing and Doppler shift simulations were made for all experiments. A computational technique has been developed allowing the reconstruction of the TID phase velocities from multi-position bi-static HF Doppler scatters. Parameters of medium-scale TIDs were found. In all experiments they were observed in the evening and pre-midnight hours. TIDs in the auroral E-region with periods of about 23 min were traveling southward at speeds of 210 m/s. TIDs in the mid-latitudinal F-region with periods from 20 to 45 min travelled at speeds between 40 and 150 m/s. During quiet magnetic conditions the waves were traveling in the north-east direction. In disturbed conditions the waves were moving in the south-west direction with higher speeds as compared with quiet conditions. Possible sources for the atmospheric gravity waves at middle and high latitudes are discussed.

Highlights

  • Internal atmospheric gravity waves (AGWs) in the neutral atmosphere manifest themselves in the ionosphere as traveling ionospheric disturbances (TIDs)

  • HF ionospheric modification experiments provide a way of producing the HF heater-induced target by a controlled manner at altitudes where the sensitivity to the TIDs is highest

  • Medium-scale traveling ionospheric disturbances with periods of about 23 min were detected in an auroral sporadic Es-layer in the pre-midnight hours

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Summary

Introduction

Internal atmospheric gravity waves (AGWs) in the neutral atmosphere manifest themselves in the ionosphere as traveling ionospheric disturbances (TIDs). AGWs and TIDs give an essential input to the dynamics and energetics of the upper atmosphere. Many efforts have been invested in studying AGWs and TIDs both experimentally and theoretically (see, for example, Francis, 1975; Yeh and Liu, 1974; Hunsucker, 1982; Crowley and McCrea, 1988; Williams and Virdi, 1989; Williams, 1996; Williams et al, 1993; Hocke et al, 1996). TIDs are usually grouped into two classifications: largescale and medium-scale, depending on their wavelengths and periods. Large-scale TIDs have horizontal wavelengths greater than 1000 km and periods of about 30 min to 3 h

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