首页> 外文期刊>Journal of Geophysical Research, D. Atmospheres: JGR >A comparison of polar mesosphere summer echo at VHF (224 MHz) and UHF (930 MHz) and the effects of artificial electron heating
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A comparison of polar mesosphere summer echo at VHF (224 MHz) and UHF (930 MHz) and the effects of artificial electron heating

机译:比较极地中间层夏季回波甚高频(224 MHz)和超高频(930 MHz)和效果人工电子加热

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摘要

A polar mesosphere summer echo (PMSE) campaign with a VHF radar at 224 MHz and UHF radar at 930 MHz was carried out from 30 June to 15 July 2004 at the European Incoherent Scatter (EISCAT) radar facility near Troms?, Norway. The EISCAT Heating facility was used to produce electron heating with the aim to investigate the effects it produces on PMSE, particularly the overshoot phenomenon. A total of 59 and 28 h of observations were gathered with the VHF and UHF radars, respectively. In this study we concentrate on the 8 d when PMSE was simultaneously looked for with both radars. The occurrence rate over the observation period was 95% for the VHF radar, which is exceptionally large, and 11% for the UHF radar, which observed PMSE on parts of 4 d, always in coincidence with VHF PMSE. On all occasions, the altitude of maximum intensity of the UHF PMSE coincided with the maximum of the VHF PMSE, although it is possible that the maximum of the UHF layer could be slightly below that of the VHF layer. The effects of the heating in reducing the PMSE strength as it was switched on, and a subsequent overshoot effect as it was switched off, were clearly present in both VHF and UHF on only 2 of the 4 d where UHF and VHF PMSE were observed simultaneously. The effects of the heating were identical on the data from both radars. The absence of heating on the other 2 d is connected to the level of electron density which controls the occurrence of the overshoot effect, the latter being stronger when the electron density is lower, in agreement with greater electron heating taking place when the electron density is smaller at the altitude of the PMSE layers and below them. Since all the properties of PMSE that we have extracted from the measurements were identical for both radar wavelengths, we conclude that there is most likely only one mechanism active in creating PMSE at all radar wavelengths.
机译:极地中间层夏季回波(PMSE)运动在224 MHz VHF雷达和特高频雷达在930MHz是于2004年6月30日至7月15日在欧洲非相干散射雷达(EISCAT)从附近设施吗?设备是用于生产电子加热目的是探讨影响它对PMSE产生,尤其是过度的现象。观察与甚高频、超高频聚集雷达,分别。专注于8 d PMSE时同时寻找与雷达。在观察期间出现率95%的VHF雷达、异常大,11%的特高频雷达、观察PMSE 4 d部分,总是在巧合甚高频PMSE。超高频PMSE恰逢的最大强度最大的甚高频PMSE,尽管它是超高频层的最大可能略低于甚高频层。减少PMSE加热的影响力量开启,和随后的过度影响关闭,显然在VHF和UHF只有2的4 d UHF和VHF PMSE被观察到同时进行。相同的数据来自两个雷达。没有加热2 d连接电子密度的控制过度的发生效果,后者更强的电子密度较低,与更大的电子协议加热电子密度时发生小的高度和PMSE层低于他们。我们已经从测量数据中提取相同的两个雷达波长,我们得出结论是最有可能只有一个机制积极参与创建PMSE雷达波长。

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