A Model for the Sounding Rocket Measurement on an Ionospheric E-F Valley at the Hainan Low Latitude Station

To understand the physics of an ionospheric E-F valley, a new overlapping three- Chapman-layer model is developed to interpret the sounding rocket measurement in the morn- ing （sunrise） on May 7, 2011 at the Hainan low latitude ionospheric observation station （19.5°N, 109.1°E）. From our model, the v...

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Veröffentlicht in:	Plasma science & technology 2014-04, Vol.16 (4), p.316-319
1. Verfasser:	王铮史建魁关燚炳刘超朱光武 Klaus TORKAR Martin FREDRICH
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Sprache:	eng
Schlagworte:	ING Ionosphere Ionospherics Latitude Morning Photochemical Plasma (physics) Sounding rockets Stations Valleys 低纬电离层光化学过程层模型探空火箭测量海南观测站
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creator	王铮史建魁关燚炳刘超朱光武 Klaus TORKAR Martin FREDRICH
description	To understand the physics of an ionospheric E-F valley, a new overlapping three- Chapman-layer model is developed to interpret the sounding rocket measurement in the morn- ing （sunrise） on May 7, 2011 at the Hainan low latitude ionospheric observation station （19.5°N, 109.1°E）. From our model, the valley width, depth and height are 43.0 km, 62.9% and 121.0 km, re- spectively. From the sounding rocket observation, the valley width, depth and height are 42.2 km, 47.0% and 123.5 km, respectively. The model results are well consistent with the sounding rocket observation. The observed E-F valley at Hainan station is very wide and deep, and rapid deel- opment of the photochemical process in the ionosphere should be the underlying reason.
doi_str_mv	10.1088/1009-0630/16/4/03
format	Article
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From our model, the valley width, depth and height are 43.0 km, 62.9% and 121.0 km, re- spectively. From the sounding rocket observation, the valley width, depth and height are 42.2 km, 47.0% and 123.5 km, respectively. The model results are well consistent with the sounding rocket observation. 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subjects	ING Ionosphere Ionospherics Latitude Morning Photochemical Plasma (physics) Sounding rockets Stations Valleys 低纬电离层光化学过程层模型探空火箭测量海南观测站
title	A Model for the Sounding Rocket Measurement on an Ionospheric E-F Valley at the Hainan Low Latitude Station
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