Some ubiquitous features of the mesospheric Fe and Na layer borders from simultaneous and common‐volume Fe and Na lidar observations

Yi, Fan; Zhang, Shaodong; Yue, Xianchang; He, Yujin; Yu, Changming; Huang, Chunming; Li, Wei

doi:10.1029/2007ja012632

Cited by 17 publications

(36 citation statements)

References 38 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…They noticed that even though the individual density profiles appeared quite different, the temporal variations of Na and Fe layer parameters (abundances, centroid heights, and RMS widths) were highly correlated in most cases. The simultaneous and common-volume Na and Fe lidar observations at 30 • N revealed that Na and Fe lower boundaries always follow almost the same track and show consistently a delicate stratification with the Fe lower boundary being in general slightly higher than or coincident with that of the Na layer (Yi et al, 2007(Yi et al, , 2008. In addition, the Na layer always shows a few kilometers more extension on its top side than the Fe layer.…”

Section: Introductionmentioning

confidence: 91%

“…The mean profiles will quantitatively show the relationship of the two background metal layers. In contrast to our previous work that only focuses on the relationship between the Na and Fe layer boundaries (defined by a given small density criterion) (Yi et al, 2008), here we will examine the relation between the Na and Fe density variations at all fixed altitudes over the main metal layer. An intriguing ubiquitous connection between the Na and Fe density variations at fixed altitudes on the layer bottom side is revealed for the first time.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Average properties and small-scale variations of the mesospheric Na and Fe layers as observed simultaneously by two closely colocated lidars at 30° N

Chen

2011

Ann. Geophys.

View full text Add to dashboard Cite

Abstract. We report the average properties and small-scale variation features of the mesospheric Na and Fe layers at 30 • N from extensive simultaneous and common-volume Na and Fe lidar measurements at Wuhan, China. The annual mean Na and Fe density profiles are derived in terms of an averaging method taken from an early literature. The mean Na and Fe profiles preserve the sharp gradients present in most individual density profiles near the layer bottom. Near the bottommost of the layers the mean Na and Fe scale heights are respectively −0.42 and −0.30 km. The mean layer parameters coincide well with the previous report. The Na and Fe densities in the lowest several kilometers of the layers consistently exhibit nearly the same time variations. A clearcut distinction between the Na and Fe time variations always appears in an altitude range near 90 km. A relatively weak positive correlation between them persistently occurs also in an altitude range near 100 km. The mean increase and decrease rates for both Na and Fe are altitude dependent and have a single-peak structure. The time constant of the layer variation is ∼0.07-2.0 h for Na and ∼0.02-1.7 h for Fe, suggesting that the variability is dominated by small-scale processes. However, there is also a slow net increase in each of the annual mean column abundances (Na and Fe) during night.

show abstract

Section: Introductionmentioning

confidence: 91%

Section: Introductionmentioning

confidence: 99%

Average properties and small-scale variations of the mesospheric Na and Fe layers as observed simultaneously by two closely colocated lidars at 30° N

Chen

2011

Ann. Geophys.

View full text Add to dashboard Cite

show abstract

“…An example is shown in Figure 7a for 4 September 2012. Note that in the current study, the lower and upper boundaries of a metal layer are defined to be the altitudes where the densities are 2% of the nightly mean peak density, instead of a fixed density for two lidars as presented in Yi et al [2008]. For the total 704 pairs of Fe and Na density profiles over 12 nights, the Fe layer lower boundaries are plotted versus the Na lower boundaries in Figure 7b.…”

Section: Density Gradient In the Boundary Correlationmentioning

confidence: 99%

“…[27] A detailed study by Yi et al [2008] from 26 nights of observations at Wuhan (30.5°N, 114.4°E), China, has found a close correlation between Fe and Na boundary altitude variations, especially at the layer bottomside. Our Table Mountain observations reveal similar behavior, with higher correlations at the lower boundary (nearly 99%) and slightly lower correlation (~70%) at the upper boundary.…”

Section: Density Gradient In the Boundary Correlationmentioning

confidence: 99%

“…Unfortunately, observations of multiple species are rare, although general properties of Fe and Na layers have been reported by several groups independently [Tilgner and von Zahn, 1988;Plane et al, 1999;States and Gardner, 1999;Raizada and Tepley, 2003;Gardner et al, 2011] and by a few correlative observations Gardner et al, 1993Gardner et al, , 2005. The lidar group at Wuhan has undertaken extensive simultaneous Fe and Na observations with broadband resonance lidars [Yi et al, 2008[Yi et al, , 2009. Several unique features have been characterized from a large amount of data [Chen and Yi, 2011;Ma and Yi, 2010], but definitive explanations for these features are still lacking.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Simultaneous, common‐volume lidar observations and theoretical studies of correlations among Fe/Na layers and temperatures in the mesosphere and lower thermosphere at Boulder Table Mountain (40°N, 105°W), Colorado

et al. 2013

View full text Add to dashboard Cite

[1] Simultaneous and common-volume observations of Fe density, Na density, and temperatures in the mesosphere and lower thermosphere were made for 12 nights with an Fe Boltzmann lidar and a Na Doppler lidar at the Table Mountain Lidar Facility (40.13°N, 105.24°W) near Boulder, Colorado, in August and September 2010. We derive the correlations among temporal variations of Fe/Na densities and temperatures, eliminating the covariance bias via computing the cross correlations between Fe (Na) density and Na (Fe) temperature perturbations. The Fe-Na density correlation is positive below the Fe layer peak and above the Na peak where the Fe/Na density gradients have the same signs but becomes negative in between the Fe and Na peaks where the gradients are opposite. The large correlation between temperature and density fluctuations is positive on the layer bottomside but negative on the topside with the transitions occurring near the layer peaks. The relative Fe/ Na variances reach minimum near the layer peaks but rapidly increase and exceed the relative temperature variance significantly toward edges. These observations can be largely reproduced by theoretically modeling the metal layer responses to the wave-induced perturbations only through dynamic processes with a Gaussian stationary density distribution. These results suggest that the dynamic effects (mainly the vertical displacement) induced by gravity waves or tides dominate the observed short-term density and temperature variations over a night. We explain the Fe/Na gradient difference observed at the bottomside via the chemical "shelf" around 80 km for reactive chemicals and the Fe/Na layer height difference.

show abstract

First simultaneous measurements of Na and K thermospheric layers along with TILs from Arecibo

Raizada

Brum

Tepley

et al. 2015

Geophysical Research Letters

View full text Add to dashboard Cite

This work presents the first simultaneous observations of Na and K between 120 and 150 km altitudes along with ionospheric tidal ion layers (TILs) obtained on 30 January 2006 data from Arecibo. The latter displays an average downward phase velocity of ~14.7 ms−1. However, the neutral layers descend together at a much slower velocity of about ~0.69 ms−1. This indicates that thermospheric atomic metal layers are not necessarily associated with TILs. The ratio of the average Na/K abundances in thermosphere is ~35.5 as compared to 150 in the main layer (80–105 km). The long lifetimes of ions at ~140 km implies that neutral layers cannot result from direct neutralization of metal ions in the TILs. We investigate different mechanisms that can deposit neutral atoms at thermospheric altitudes.

show abstract

Some ubiquitous features of the mesospheric Fe and Na layer borders from simultaneous and common‐volume Fe and Na lidar observations

Cited by 17 publications

References 38 publications

Average properties and small-scale variations of the mesospheric Na and Fe layers as observed simultaneously by two closely colocated lidars at 30° N

Average properties and small-scale variations of the mesospheric Na and Fe layers as observed simultaneously by two closely colocated lidars at 30° N

Simultaneous, common‐volume lidar observations and theoretical studies of correlations among Fe/Na layers and temperatures in the mesosphere and lower thermosphere at Boulder Table Mountain (40°N, 105°W), Colorado

First simultaneous measurements of Na and K thermospheric layers along with TILs from Arecibo

Contact Info

Product

Resources

About