The intermediate layers and associated tidal motions observed by a digisonde in the equatorial anomaly region

Lee, Chien Chieh; Liu, J.-Y.; Chen, Pan; Hsu, Hui-Chun

doi:10.5194/angeo-21-1039-2003

Cited by 28 publications

(28 citation statements)

References 27 publications

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“…More recently, using the Arecibo radar observations, Christakis et al [2009] reported the occurrence of intermediate layers twice a day and the daytime descending layers were found to occur in the height range of 130–140 km beginning at ∼1100 LT (for details, see their Figure 3), which are consistent with those reported earlier by Tong et al [1988]. Daytime descending intermediate layers have also been reported from other low latitudes based on ionosonde observations [e.g., Lee et al , 2003; Niranjan et al , 2010]. The above investigations clearly suggest that the occurrence of the intermediate layers is primarily governed by semidiurnal tidal winds.…”

Section: Discussionsupporting

confidence: 87%

Descending ion layer property in the Gadanki radar observations of 150 km echoes and its implication to the echoing phenomenon

Patra

2011

J. Geophys. Res.

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Gadanki radar observations of the daytime 150 km echoes displaying descending features, resembling the descending ion layer behavior, are presented. The descending pattern is intriguing since it indicates the possible role of density gradient associated with the ion layer in generating the irregularities responsible for 150 km radar echoes, not envisioned before. Unusually strong SNR and narrow spectral features of these echoes clearly indicate the role of sharp density gradients in the echoing process. Given the fact that Gadanki is located at magnetically low latitude, it is argued that these descending echoing layers are produced by interchange instability on the gradient of daytime descending ion layer formed by meridional wind shear associated with tidal/gravity waves quite similar to that observed during nighttime. The observations reported here are first of its kind illustrating the role of density gradient layers and are important in furthering our understanding on the puzzling 150 km echoing phenomenon.

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Section: Discussionsupporting

confidence: 87%

Descending ion layer property in the Gadanki radar observations of 150 km echoes and its implication to the echoing phenomenon

Patra

2011

J. Geophys. Res.

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“…Using the MIRE model, Resende et al (2017aResende et al ( , 2017b verified that the diurnal component of the zonal wind is very important in the formation of the Es-layers (at 90-140 km) over Brazil; however, the descending movement is simulated only when the meridional wind is included in the model. Lee et al (2003) found for an equatorial anomaly region in Japan that the semidiurnal tide mode is dominant in the spring and winter, while the quarterdiurnal prevails in summer/autumn. For an Indian station, Niranjan et al (2010) observed a high occurrence probability in winter, moderate occurrence rate during equinox and low occurrence during summer solstice.…”

Section: Discussionmentioning

confidence: 93%

“…The presence of some nocturnal IL's over CP and SL during almost all season (except during the June solstice in SL) was another differential factor observed in our study. As mentioned by Lee et al (2003), this result may be influenced by a limitation in the Digisonde, when the plasma frequency is lower than the lowest sounding frequency (1MHz), or by a blanketing caused by an underlying Es layer (l/f type). Over Arecibo, a middle latitude region, for example, the nocturnal IL is a very common phenomenon (Shen et al 1976;Osterman et al 1994).…”

Section: Discussionmentioning

confidence: 98%

Climatology of intermediate descending layers (150 km) over the equatorial and low latitude regions of Brazil during the deep solar minimum of 2009

Santos¹,

Batista²,

Abdu³

et al. 2019

Preprint

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Abstract. In this work, we report for the first time the climatology of intermediate descending layers over Brazilian equatorial and low latitudes regions during the extreme solar minimum period of 2009. The occurrence frequency of this layer is very high, being > 60 % over São Luís (2° S; 44° W, I: −5.7°) and > 90 % in Cachoeira Paulista (22.42° S; 45° W, I: −34.4°). Our results reveal that in most of the cases the intermediate layers (IL’s) appear during the day at altitudes varying from 130 to 180 km and present a descent movement that reaches the lower altitudes (~ 100 km) in a time interval of a few minutes to hours. Differently from other longitudinal sectors, the diurnal tide (24 h) can be considered as the main cause of IL’s for the low latitude region, followed by a smaller dominance of semidiurnal (12 h), terdiurnal (8 h) and quarter-diurnal (6 h) tide components. In the equatorial sector, similar behavior was found, with the exception of the semidiurnal tide, which in general does not appear to influence the IL’s dynamics (except in summer). The IL’s mean descent velocities over São Luís and Cachoeira Paulista show a day-to-day variability that may be associated with gravity waves propagation. Some peculiarities in the IL’s dynamics have been noted, such as the presence of the IL’s during the night hours, ascending IL’s, simultaneous IL’s, and descending IL’s been formed from some connection with the ionospheric F layer. Quite often, these characteristics are observed in the presence of strong signatures in the ionogram F-layer trace similar to those caused by the gravity wave propagation. We will show further that the descending intermediate layer over Brazil can be formed through a process of F1 layer base detachment. Besides that, we will present an interesting case study in which an ascending IL’s, initially detected at ~ 140 km, reached the base of F2 layer, probably due to the gravity wave propagation and/or due to the effect of the prompt penetration electric field.

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“…The Collm meteor radar measures mesospheric and lower thermospheric winds at altitudes of about 80-100 km since summer 2004 (Jacobi et al, 2007(Jacobi et al, , 2009Lilienthal and Jacobi, 2015). These observations have already been used for comparison with SDT, TDT, and QDT components in Es at these heights (Arras et al, 2009;Fytterer et al, 2013;Jacobi et al, 2018a), but for different time intervals, and without providing an overview of all tidal components together.…”

Section: Introductionmentioning

confidence: 99%

Tidal wind shear observed by meteor radar and comparison with sporadic E occurrence rates based on GPS radio occultation observations

Jacobi

Arras

2019

Adv. Radio Sci.

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Abstract. We analyze tidal (diurnal, semidiurnal, terdiurnal, quarterdiurnal) phases and related wind shear in the mesosphere/lower thermosphere as observed by meteor radar over Collm (51.3∘ N, 13.0∘ E). The wind shear phases are compared with those of sporadic E (Es) occurrence rates, which were derived from GPS radio occultation signal-to-noise ratio (SNR) profiles measured by the COSMIC/FORMOSAT-3 satellites. At middle latitudes Es are mainly produced by wind shear, which, in the presence of a horizontal component of the Earth's magnetic field, leads to ion convergence in the region where the wind shear is negative. Consequently, we find good correspondence between radar derived wind shear and Es phases for the semidiurnal, terdiurnal, and quarterdiurnal tidal components. The diurnal tidal wind shear, however, does not correspond to the Es diurnal signal.

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The intermediate layers and associated tidal motions observed by a digisonde in the equatorial anomaly region

Cited by 28 publications

References 27 publications

Descending ion layer property in the Gadanki radar observations of 150 km echoes and its implication to the echoing phenomenon

Descending ion layer property in the Gadanki radar observations of 150 km echoes and its implication to the echoing phenomenon

Climatology of intermediate descending layers (150 km) over the equatorial and low latitude regions of Brazil during the deep solar minimum of 2009

Tidal wind shear observed by meteor radar and comparison with sporadic E occurrence rates based on GPS radio occultation observations

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