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《地球科学与环境学报》[ISSN:1672-6561/CN:61-1423/P]

Issue:

2021年第02期

Page:

356-365

Research Field:

应用地球物理

Publishing date:

Info

Title:

Correlation Between Atmospheric Electric Fields Overturning and Mesospheric Sporadic Thin Layers

Author(s):

QIU Shi-can¹;  WANG Xing-jin²

(1. School of Geology Engineering and Geomatics, Chang'an University, Xi'an 710054, Shaanxi, China; 2. School of Earth and Space Sciences, University of Science and Technology of China, Hefei 230026, Anhui, China)

Keywords:

middle and upper atmosphere;  ionospheric layer;  sporadic sodium layer;  sporadic E layer;  atmospheric electric field;  correlation;  LIDAR;  Chinese Meridian Project

PACS:

P352.7

DOI:

10.19814/j.jese.2021.01032

Abstract:

Sporadic sodium layer(Na_S)is the most significant phenomenon in the metallic layer of the middle and upper atmosphere, whose mechanism has not been determined. Sporadic E layer(E_S)is a thin layer with abnormal increase of plasma density on the ionospheric E layer, which is considered to be closely related to Na_S. For further study of influence factors and correlation between Na_S and E_S, the observation results of a fluorescent scattering LIDAR and a nearby narrowband temperature/wind LIDAR at Hefei station by Chinese Meridian Project, combined with an ionosonde at Zuolingzhen station and an atmospheric mill at Jiufeng station in Wuhan, were used to analyze the effects of atmospheric electric field overturning(i.e. northward electric field)on Na_S and E_S. Among the 91 Na_S events, the ratio of atmospheric electric field overturning is 20/91. At the same time, in the cases of Na_S occurrence, the ratio of E_S disappearance or interruption is higher(14/20), suggesting that E_S may be converted into Na_S in the form of sodium source. In addition, the data from the ionosonde at Zuolingzhen station in Wuhan were analyzed and the probability statistics were made. The results show that when the atmospheric electric field is overturned, the critical frequency of E_S has a large probability of reduction or disappearance(187/242), and in a few cases, it may even incite E_S production(55/242).The visual height of E_S disappears at a ratio of 179/242, the constant ratio is 27/242, and the increasing ratio is 23/242.The statistical results show that the atmospheric northward electric field can inhibit the E_S occurrence to a certain extent, and has a significant effect on the occurrence height of E_S. Finally, a mechanism related to electric field overturning for Na_S is discussed.

References:

[1] 张艳磊,吴 健,甄卫民,等.利用三站卫星闪烁数据测量电离层不均匀结构漂移速度[J].地球物理学报,2010,53(7):1515-1519.
ZHANG Yan-lei,WU Jian,ZHEN Wei-min,et al.An Analysis on the Ionospheric Irregularities Drift Velo-city Using Three ISM[J].Chinese Journal of Geophysics,2010,53(7):1515-1519.
[2] RICHTER E S,ROWLETT J R,GARDNER C S,et al.Lidar Observation of the Mesospheric Sodium Layer over Urbana,Illinois[J].Journal of Atmosphe-ric and Terrestrial Physics,1981,43(4):327-337.
[3] SHE C Y,CHEN S S,HU Z L,et al.Eight-year Climatology of Nocturnal Temperature and Sodium Density in the Mesopause Region(80 to 105 km)over Fort Collins,CO(41°N,105°W)[J].Geophysical Research Letters,2000,27(20):3289-3292.
[4] QIU S C,TANG Y H,DOU X K.Temperature Controlled Icy Dust Reservoir of Sodium:A Possible Mechanism for the Formation of Sporadic Sodium Layers[J].Advances in Space Research,2015,55(11):2543-2565.
[5] QIU S C,TANG Y H,JIA M J,et al.A Review of Latitudinal Characteristics of Sporadic Sodium Layers,Including New Results from the Chinese Meridian Project[J].Earth-science Reviews,2016,162:83-106.
[6] MATHEWS J D.Sporadic E:Current Views and Recent Progress[J].Journal of Atmospheric and Solar:Terrestrial Physics,1998,60(4):413-435.
[7] CLEMESHA B R,KIRCHHOFF V W J H,SIMONICH D M,et al.Evidence of an Extra-terrestrial Source for the Mesospheric Sodium Layer[J].Geophysical Research Letters,1978,10(5):873-876.
[8] CLEMESHA B R,KIRCHHOFF V W J H,SIMONICH D M,et al.Spaced Lidar and Nightglow Observations of an Atmospheric Sodium Enhancement[J].Journal of Geophysical Research:Space Physics,1980,85(A7):3480-3484.
[9] VON ZAHN U,VON DER GATHEN P,HANSEN G.Forced Release of Sodium from Upper Atmosphe-ric Dust Particles[J].Geophysical Research Letters,1987,14(1):76-79.
[10] COX R M,PLANE J M C,GREEN J S A.A Modelling Investigation of Sudden Sodium Layers[J].Geophysical Research Letters,1993,20(24):2841-2844.
[11] ZHOU Q H,MATHEWS J D,TEPLEY C A.A Proposed Temperature Dependent Mechanism for the Formation of Sporadic Sodium Layers[J].Journal of Atmospheric and Terrestrial Physics,1993,55(3):513-521.
[12] ZHOU Q H,MATHEWS J D.Generation of Sporadic Sodium Layers via Turbulent Heating of the Atmosphere?[J].Journal of Atmospheric and Terrestrial Physics,1995,57(11):1309-1315,1317-1319.
[13] COX R M,PLANE J M C.An Experimental and Theoretical Study of the Clustering Reactions Between Na⁺ Ions and N₂,O₂ and CO₂[J].Journal of the Chemical Society,1997,93(16):2619-2629.
[14] COX R M,PLANE J M C.An Ion-molecule Mechanism for the Formation of Neutral Sporadic Na Layers[J].Journal of Geophysical Research:Atmospheres,1998,103(D6):6349-6359.
[15] DOU X K,XUE X H,LI T,et al.Possible Relations Between Meteors,Enhanced Electron Density Layers,and Sporadic Sodium Layers[J].Journal of Geophysical Research:Space Physics,2010,115(A6):A06311.
[16] HALDOUPIS C,PANCHEVA D,MITCHELL N J.A Study of Tidal and Planetary Wave Periodicities Present in Midlatitude Sporadic E Layers[J].Journal of Geophysical Research:Space Physics,2004,109(A2):A02302.
[17] RESENDE L C A,DENARDINI C M,BATISTA I S.Abnormal fb Es Enhancements in Equatorial Es Layers During Magnetic Storms of Solar Cycle 23[J].Journal of Atmospheric and Solar:Terrestrial Phy-sics,2013,102:228-234.
[18] RESENDE L C A,DENARDINI C M.Equatorial Sporadic E-layer Abnormal Density Enhancement During the Recovery Phase of the December 2006 Magnetic Storm:A Case Study[J].Earth,Planets and Space,2012,64:345-351.
[19] KIRKWOOD S,NILSSON H.High-latitude Sporadic-E and Other Thin Layers:The Role of Magnetospheric Electric Fields[J].Space Science Reviews,2000,91(3/4):579-613.
[20] KIRKWOOD S,VON ZAHN U.On the Role of Auroral Electric Fields in the Formation of Low Altitude Sporadic-E and Sudden Sodium Layers[J].Journal of Atmospheric and Terrestrial Physics,1991,53(5):389-407.
[21] MACDOUGALL J W,JAYACHANDRAN P T.Sporadic E at Cusp Latitudes[J].Journal of Atmospheric and Solar:Terrestrial Physics,2005,67(15):1419-1426.
[22] RYCROFT M J.Electrical Processes Coupling the Atmosphere and Ionosphere:An Overview[J].Journal of Atmospheric and Solar:Terrestrial Physics,2006,68(3/4/5):445-456.
[23] COLLINS S C,PLANE J M C,KELLY M C,et al.A Study of the Role of Ion-molecule Chemistry in the Formation of Sporadic Sodium Layers[J].Journal of Atmospheric and Solar:Terrestrial Physics,2002,64(7):845-860.
[24] QIU S C,WANG N,SOON W,et al.Sporadic Sodium Layer:A Possible Tracer for the Conjunction Between the Upper and Lower Atmospheres[J].Atmospheric Chemistry and Physics,2020,DOI:10.5194/acp-2020-1079.
[25] BITTENCOURT J A.Fundamentals of Plasma Phy-sics[M].3rd ed.New York:Springer,2004.
[26] SOMOV B V.Cosmic Plasma Physics[M].Dordrecht:Springer,2000.

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Last Update: 2021-04-15