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冷锋期间武汉mst雷达低平流层回波异常现象
Abnormal Echoes in Lower Stratosphere Observed by Wuhan MST Radar during a Cold front Event

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潘震豪 1   周晓明 1   陈罡 1   燕春晓 2   陈飞龙 1   王莹 1  
文摘 武汉MST雷达是中国子午工程建设的两台中高层大气无线电探测雷达之一该雷达探测频率在VHF频段,雷达回波在低平流层和对流层上部具有角谱特性,可为研究大气动态稳定性提供有效技术手段.本文利用武汉MST雷达2016年4月17日冷锋活动期间及平静天气的角谱实验数据,从雷达回波特性变化、风场空间分布、湍流生成机制以及内重力波影响四个方面分析并解释了MST雷达对流层顶上部区域出现持续异常强回波带的成因.分析结果表明,对流层冷锋的强对流作用诱发内重力波,内重力波向上传播至低平流层后受增强的剪切急流影响发生耗散甚至破碎,激励了长时间跨度的K-H不稳定性,进而导致水平反射层结构发生扰动生成湍流,使得雷达回波结构发生变化.
其他语种文摘 Wuhan Mesosphere-Stratosphere-Troposphere (MST) radar is a radio atmosphere detection radar deployed by the Chinese Meridian Project. As the frequency is in VHF band, the echoes are sensitive in all their aspects. Such echo characteristics are much more obvious in the Upper Troposphere and Lower Stratosphere (UTLS), which provides a practical approach to investigate the atmosphere dynamics. Observations of echo characteristic during a cold front are obtained by Wuhan MST radar in mid-latitude in April 2016. The experiment results show that the typical feature of the echo aspect sensitivity is significantly changed compared with that of normal days. Reasons of the echo anomaly are studied by analyzing echo characteristics variations, wind field spatial distributions, turbulence generation mechanisms and Inertia Gravity Waves (IGWs) effects. The result demonstrates that the dissipating (or even breaking) of upward IGWs coming from convection system might feed the long-time persistence of Kelvin-Helmholtz (K-H) instability, which further tilts the horizontal reflection layer and results in the intense turbulence and the echo enhancement.
来源 空间科学学报 ,2018,38(4):492-501 【核心库】
DOI 10.11728/cjss2018.04.492
关键词 角谱 ; MST雷达 ; 风剪切 ; KH不稳定性 ; 内重力波
地址

1. 武汉大学电子信息学院, 武汉, 430072  

2. 中国科学院国家空间科学中心, 空间天气国家重点实验室, 北京, 100190

语种 中文
文献类型 研究性论文
ISSN 0254-6124
学科 地球物理学
基金 国家自然科学基金
文献收藏号 CSCD:6284747

参考文献 共 40 共2页

1.  Gage K S. Evidence for specular reflection from monostatic VHF radar observations of the stratosphere. Radio Sci,1978,13(6):991-1001 被引 1    
2.  Rottger J. Partial reflection and scattering of VHF radar signals from the clear atmosphere. Geophys. Res. Lett,1978,5(5):357-360 被引 2    
3.  Tsuda T. Zenith-angle dependence of VHF specular reflection echoes in the lower atmosphere. J. atmos. Terr. Phys,1997,59(7):761-775 被引 1    
4.  胡雄. 武汉中层、低热层大气角谱中频雷达观测. 空间科学学报,2003,23(4):256-261 被引 9    
5.  Jain A R. Aspect sensitivity of the received radar backscatter at VHF: Preliminary observations using the Indian MST radar. Radio Sci,1997,32(3):1249-1260 被引 1    
6.  张培昌. 雷达气象学,2001 被引 100    
7.  Hocking W K. Viscosity waves and thermal-conduction waves as a cause of "specular" reflectors in radar studies of the atmosphere. Radio Sci,1991,26(5):1281-1303 被引 1    
8.  Luce H. Interpretation of VHF ST radar vertical echoes from in situ temperature sheet observations. Radio Sci,1995,30(4):1003-1025 被引 2    
9.  Gage K S. On the scattering and reflection mechanisms contributing to clear air radar echoes from the troposphere, stratosphere, and mesophere. Radio Sci,1980,15(2):243-257 被引 2    
10.  Doviak R J. Reflection and scatter formula for anisotropically turbulent air. Radio Sci,1984,19(1):325-336 被引 3    
11.  Kumar K K. VHF radar observations of convectively generated gravity waves: Some new insights. Geophys. Res. Lett,2006,330(1):311-330 被引 1    
12.  Luce H. Kelvin-Helmholtz billows generated at a cirrus cloud base within a tropopause fold/upper-level frontal system. Geophys. Res. Lett,2012,39(4):4807 被引 1    
13.  Yamamoto M K. Correction to "Kelvin-Helmholtz instability around the tropical tropopause observed with the Equatorial Atmosphere Radar". Geophys. Res. Lett,2003,30(9):319-338 被引 1    
14.  Das S S. VHF radar echoes in the vicinity of tropopause during the passage of tropical cyclone: First observations from the Gadanki MST radar. J. Geophys. Res,2008,16(113):D09113 被引 1    
15.  Das S S. Modulation of thermal structure in the Upper Troposphere and Lower Stratosphere (UTLS) region by inertia gravity waves: a case study inferred from simultaneous MST radar and GPS sonde observations. Indian J. Radio Space Phys,2014,43(1):11-23 被引 1    
16.  Worthington R M. An investigation of tilted aspect-sensitive scatterers in the lower atmosphere using the MU and Aberystwyth VHF radars. Radio Sci,1999,34(2):413-426 被引 1    
17.  Worthington R M. Complete maps of the aspect sensitivity of VHF atmospheric radar echoes. Ann. Geophys,1999,17:1116-1119 被引 1    
18.  Huaman M M. Long-term-mean aspect sensitivity of PMSE determined from Poker Flat MST radar data. Geophys. Res. Lett,1998,25(25):947-950 被引 1    
19.  Swarnalingam N. Long-term aspect-sensitivity measurements of polar mesosphere summer echoes (PMSE) at Resolute Bay using a 51.5 MHz VHF radar. J. atmos. Terr. Phys,2011,73(9):957-964 被引 3    
20.  Smirnova M. Aspect sensitivity of polar mesosphere summer echoes based on ES-RAD MST radar measurements in Kiruna, Sweden in 1997—2010. Ann. Geophys,2012,30(3):457-465 被引 2    
引证文献 1

1 龚晚林 2012-2020年武汉崇阳站MST雷达回波数据集 中国科学数据,2021,6(2):1-16-16-16
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