Lidar observations of a lot of sporadic sodium layers in mid‐latitude

Nagasawa, Chikao; Abo, Makoto

doi:10.1029/94gl03008

Cited by 69 publications

(90 citation statements)

References 16 publications

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“…11 (upper panel). The data from Nagasawa and Abo (1995) show a strong positive correlation between seasonal variations of Na s and E s . We compare their results with ours obtained at Juliusruh, Germany (54 • N, 13 • E) (Fig.…”

Section: Discussion Of the Observationsmentioning

confidence: 88%

“…11. Seasonal variation of sporadic metal and electron layers: Na s and E s as observed above Tokyo (Nagasawa and Abo, 1995) (upper panel), Ca s and E s as observed above Kühlungsborn and Juliusruh, respectively (lower panel). The occurrence of strong sporadic Ca + s with number densities higher than 300 cm −3 is shown for comparison (lower panel).…”

Section: Discussion Of the Observationsmentioning

confidence: 99%

“…So both Batista et al (1989) and Hansen and von Zahn (1990) reported on only weak seasonal variation of sporadic Na layer occurrence. Nagasawa and Abo (1995) gave the occurrence a total of 37 Na s above Tokyo, Japan (36 • N, 140 • E) on a monthly basis and compared this with the seasonal variation in occurrence of local sporadic E layers. Their observations are shown in Fig.…”

Section: Discussion Of the Observationsmentioning

confidence: 99%

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Sporadic Ca and Ca<sup>+</sup> layers at mid-latitudes: Simultaneous observations and implications for their formation

et al. 2001

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Abstract. We report on the observations of 188 sporadic layers of either Ca atoms and/or Ca ions that we have observed during 112 nights of lidar soundings of Ca, and 58 nights of Ca + soundings, at Kühlungsborn, Germany (54 • N, 12 • E). The Ca + soundings have been performed simultaneously and in a common volume with the Ca soundings by two separate lidars. Correlations between sporadic neutral and ionized metal layers are demonstrated through four case studies. A systematic study of the variations of occurrence of sporadic Ca and Ca + layers reveals that neutral and ionized Ca layers are not as closely correlated as expected earlier: (a) The altitude distribution shows the simultaneous occurrence of both sporadic Ca and Ca + layers to be most likely only in the narrow altitude range between 90 and 95 km. Above that region, in the lower thermosphere, the sporadic ion layers are much more frequent than atom layers. Below 90 km only very few sporadic layers have been observed; (b) The seasonal variation of sporadic Ca layers exhibits a minimum of occurrence in summer, while sporadic Ca + layers do not show a significant seasonal variation (only the dense Ca + layers appear to have a maximum in summer). At midlatitudes sporadic Ca layers are more frequent than sporadic layers of other atmospheric metals like Na or K. For the explanation of our observations new formation mechanisms are discussed.

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Section: Discussion Of the Observationsmentioning

confidence: 88%

Section: Discussion Of the Observationsmentioning

confidence: 99%

Section: Discussion Of the Observationsmentioning

confidence: 99%

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Sporadic Ca and Ca<sup>+</sup> layers at mid-latitudes: Simultaneous observations and implications for their formation

et al. 2001

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“…Usually, Nas has a thin layer with a width of 1-2 km, lasting for a few tens of minutes to several hours, and the ratio of peak Na density to the normal density is usually from three to five, occasionally, as large as ten (Nagasawa and Abo 1995). The appearance of such a sudden thin layer is also reported also in other metallic atoms, such as Fe and K (Bills R.E.…”

Section: Introductionmentioning

confidence: 91%

“…In the Southern hemisphere, longterm observations of the Na layer for over 15 years were made by Clemesha et al (1992). On the other hand, in the Northern mid-latitude, Nagasawa and Abo (1995) also have made long-term observations of the Na layer for over 10 years. Moreover, in addition to sodium, observations of the metallic species such as iron, potassium, lithium, calcium in atomic and ionic form (Fe, K, Li, Ca, Ca þ ) were successfully observed.…”

Section: Introductionmentioning

confidence: 99%

Lidar Observations of Sporadic Fe and Na Layers in the Mesopause Region over Equator

Shibata

Nagasawa

Abo

et al. 2006

Journal of the Meteorological Society of Japan

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Characteristics of sodium and iron layers in the mesopause region over the equator observed with the resonance scattering lidars installed at Kototabang, Indonesia (0.2 S, 100.3 E) are reported. These lidars were operated during the night. The sporadic sodium layer (Nas) and the sporadic iron layer (Fes) were detected in almost every observing opportunity other latitude regions. Nas and Fes layers appeared almost at the same time and the heights above 90 km. However, Fes layers appeared below 90 km as well. The occurrence of the Nas layer correlated well with that of sporadic E layer which was observed simultaneously by the ionosonde at Kototabang. On the other hand, the occurrences of the Nas and Fes layers does not correlate with that of the wind shear which has been observed simultaneously by the meteor radar at Kototabang. This result is not in agreement with the result of simultaneous observations by the Na lidar and the MU radar at Hachioji (35.6 N) and Shigaraki (34.9 N) in mid-latitude.

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Investigation of the seasonal and local time variations of the high‐altitude sporadic Na layer (Na_s) formation and the associated midlatitude descending E layer (E_s) in lower E region

et al. 2014

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Recent studies have suggested that the major reservoir for the sporadic sodium layer (Na s ) above 95 km in altitude is likely the sodium ion (Na + ) within the sporadic E layer (E s ) in the lower E region. However, theoretical and laboratory works have demonstrated that the metal ion's neutralization process is quite difficult above 100 km, while intensive neutral metal layers are consistently observed in the lower E region between 100 km and 125 km. In this paper, the multiyear observations of a Na lidar and an ionosonde at Utah State University (41.7°N, 111.8°W) and the nearby Bear Lake Observatory (41.9°N, 111.4°W) are utilized to understand their seasonal and local time variations. The comparison study between this set of the Na s and the nocturnal Na s observations in Beijing China (40.2°N, 116.1°E) reveals similar variations, but major differences are also noticed. To investigate the mechanism of these variations, the Hamburg Model of the Neutral and Ionized Atmosphere and the Climatological Tidal Model of the Thermosphere are utilized to simulate the ion vertical drift in the lower E region. The simulation shows that the lower E region is dominated by convergence of metal ions in summer, and ion diffusion prevails during winter. The tidal wind modulates the ion vertical drift speed and increases the likelihood of E s evolution at certain local times during the summer, while the tidal components of atmospheric density facilitate Na s formation by neutralizing the Na + within the E s .

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Lidar observations of a lot of sporadic sodium layers in mid‐latitude

Cited by 69 publications

References 16 publications

Sporadic Ca and Ca<sup>+</sup> layers at mid-latitudes: Simultaneous observations and implications for their formation

Sporadic Ca and Ca<sup>+</sup> layers at mid-latitudes: Simultaneous observations and implications for their formation

Lidar Observations of Sporadic Fe and Na Layers in the Mesopause Region over Equator

Investigation of the seasonal and local time variations of the high‐altitude sporadic Na layer (Na_s) formation and the associated midlatitude descending E layer (E_s) in lower E region

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Lidar observations of a lot of sporadic sodium layers in mid‐latitude

Cited by 69 publications

References 16 publications

Sporadic Ca and Ca&lt;sup&gt;+&lt;/sup&gt; layers at mid-latitudes: Simultaneous observations and implications for their formation

Sporadic Ca and Ca&lt;sup&gt;+&lt;/sup&gt; layers at mid-latitudes: Simultaneous observations and implications for their formation

Lidar Observations of Sporadic Fe and Na Layers in the Mesopause Region over Equator

Investigation of the seasonal and local time variations of the high‐altitude sporadic Na layer (Nas) formation and the associated midlatitude descending E layer (Es) in lower E region

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Sporadic Ca and Ca<sup>+</sup> layers at mid-latitudes: Simultaneous observations and implications for their formation

Sporadic Ca and Ca<sup>+</sup> layers at mid-latitudes: Simultaneous observations and implications for their formation

Investigation of the seasonal and local time variations of the high‐altitude sporadic Na layer (Na_s) formation and the associated midlatitude descending E layer (E_s) in lower E region