共查询到18条相似文献,搜索用时 437 毫秒
1.
近年来,地球高层大气与电离层之间的耦合研究为众多学者所关注.在回顾这一领域国际上若干研究方向进展的基础上,着重介绍了中国学者的近期研究工作与贡献.首先,扼要介绍了中国高层大气观测的新发展,包括激光雷达、FP干涉仪、全天空气辉成像仪等光学探测,MST雷达、全天空流星雷达等无线电探测手段.在高层大气变化特性研究中,介绍了高层大气的气候学及各种大气波动的研究进展.在高层大气与低电离层的耦合研究方面,介绍了突发钠层及低热层钠层的观测研究和钠层模式的研究进展,以及突发E层与大气行星波之间的耦合研究工作.在高层大气波动过程与电离层F2层耦合研究中,着重介绍了电离层四波经度结构与高层大气非迁移潮汐之间的耦合特性与机理研究.在热层与电离层耦合的研究方向上,介绍了热层背景大气风场和重力波对电离层的作用、带电粒子对赤道热层的影响与热层赤道异常的形成机理研究等热层电离层相互耦合工作.综合认为,近年来中国学者在高层大气与电离层耦合的研究领域进行了大量工作,包括实验观测及数据分析、模式化与理论研究等.中国学者取得的研究成果为这一领域近年来的进展与突破做出了重要贡献. 相似文献
2.
MERINO是沿120°E/60°W子午圈的全球联网观测项目,热层中性风是其中一个十分重要的观测参数.本文介绍了武汉大学扫描式F-P干涉仪(SFPI)及其在MERINO第一轮观测中的结果,并与同站点的流星雷达在98 km高度上的测风数据进行了验证,分析表明两台设备的吻合性很好,SFPI风速测量的误差分别为8 m·s-1(557.7 nm)和7.8 m·s-1 (630.0 nm).本文对地基扫描式FPI的误差做了详细分析,结果表明在FPI仪器设计之初,就需要考虑标准具通光孔径D和成像物镜焦距f的合理组合,在目前CCD和标准具规格的限制下,增加f会提高测风精度,但会牺牲通光量,可通过设置CCD为Binning读出模式来提高灵敏度.在FPI进行风场观测时,要对设备工作的环境温度进行控制,特别是控制标准具的温度漂移.FPI的测风精度可以理论推导,但实际测风误差还与反演算法、元器件的加工和安装精度有关,国际通用的误差评价方法是用统计偏差来表示. 相似文献
3.
测量夜间135.6 nm大气气辉辐射强度是目前有效的电离层探测方式之一,我国即将在风云三号卫星上搭载仪器,利用该波段夜气辉辐射测量来反演电子总含量(本文所指电子总含量表示卫星高度以下大气柱的电子含量)及峰值电子密度,因此非常有必要开展相关的气辉发光模型及反演研究.在介绍氧原子135.6 nm波段夜气辉激发机制基础上,考虑辐射在传输过程中受到大气氧原子的散射及氧气分子的吸收,采用迭代法求解包含多次散射及大气吸收衰减的辐射传输方程,得到该波段的体发射率,最终通过考虑包含辐射传输的路径积分计算得到135.6 nm气辉辐射强度值.对结果的分析表明:该气辉模型能较好地描述体发射率随高度的分布特征,计算得到的135.6 nm夜气辉辐射强度在不同时空及太阳活动的分布与相应条件下峰值电子密度(NmF2)及电子总含量(TEC)的分布基本一致.相同的时空及太阳活动输入条件下,模式计算的135.6 nm夜气辉辐射强度与国外同类模式结果的值平均偏差约为3%.文中最后介绍了通过135.6 nm夜气辉的辐射强度探测来反演电离层峰值电子密度NmF2及电子总含量TEC的反演方法. 相似文献
4.
5.
《中国科学:地球科学》2017,(8)
Fabry-Perot干涉仪(FPI)被广泛的应用于中高层大气风场的观测.目前,地基FPI监测中高层大气风场大都基于全干涉圆环,其观测一组风场数据需要15~25min,且由于全干涉圆环不利于多个观测方向同时成像在同一CCD(Charge-Coupled Device)上,因此限制了观测时间分辨率的进一步提高.而非全干涉圆环可以提供足够的空间将多个观测方向同时成像在同一CCD上,从而实现地基观测时间分辨率的提高.因此,本文结合FPI干涉环的特点,基于Taubin计算方法利用迭代法进行非全干涉圆环的圆心确定,然后基于圆心进行圆周积分,并进行半径拟合计算,进而进行大气风速的反演.基于该方法,本文利用2013年4月9日至5月6日28天的山西岢岚(38.71°N,111.58°E)的地基FPI气辉观测数据进行了风速反演验证,包括892.0、630.0和557.7nm气辉.将岢岚地基FPI非全干涉圆环的反演结果与全干涉圆环(傅里叶法)的风速进行了比较和分析,三种气辉的平均反演偏差分别为5.38、5.81和3.03m s~(-1).同时,将兴隆(40.40°N,117.59°E)地基FPI非全干涉圆环和全干涉圆环的风速结果与十三陵站点(40.3°N,116.2°E)的流星雷达风场数据进行了比较,风速变化趋势一致. 相似文献
6.
由于测量与计算的难度,对热层垂直中性风的观测还很不够,这影响了人们对热层及热层-电离层耦合的认识.本文基于全天空法布里-珀罗干涉仪(FPI)对热层风场的观测,提出了一种反演垂直中性风的方法.利用该方法,对北极黄河站全天空FPI观测数据进行了垂直中性风的反演计算,结果表明,高热层与低热层的垂直风平均幅值分别在40 m·s-1和15 m·s-1,且垂直风日变化表现出明显的时间演变特性,且与地磁ap指数的变化有一定的相关性,在地磁活动强烈时,低热层垂直风会出现高达100 m·s-1的扰动,高热层甚至会达到300 m·s-1的扰动,这些特征与其他学者的观测结果相一致.本文方法不需要假设垂直风均值为零,也不用限制FPI的观测方位,可用于垂直风的反演. 相似文献
7.
《中国科学:地球科学》2015,(11)
AURIC是由美国计算物理公司CPI与空军Phillips实验室联合开发的中高层大气紫外-可见光-近红外气辉辐射传输模型,是目前唯一用来进行中高层大气气辉辐射模拟研究的通用模型.基于MODTRAN模型的理论,AURIC可以进行80 km高度以上的辐射传输模拟并将辐射波段扩展到远紫外波段(80 nm).目前,CPI公司只面向全球发布了AURIC v1.2软件封装包,其只能进行2000年以前的单点计算,不适用于批量的中高层大气辐射模拟,更不能用于星上大气成分的批量反演.本文利用Matlab对AURIC v1.2地磁参数模块、大气电子密度模块、大气温度及各种中性气体成分密度模块进行了替代,将更新模块与原有的辐射计算模块相结合,将AURIC v1.2更新为AURIC-2012模型,其可以批量地进行全球的大气辐射传输模拟,可以与星载测量数据相结合进行中高层大气成分的批量反演,如O/N2、电子密度等,同时也为模型辐射计算模块的进一步改进和辐射机制的参数更新奠定基础.基于AURIC-2012模型,进行了气辉临边柱辐射强度模拟和体辐射率计算,并将结果分别与GUVI柱辐射强度和TIDI体辐射率实测值进行了比较,得到两者峰值的模拟平均相对误差都小于20%.最后,利用AURIC-2012对气辉临边柱辐射强度随纬度和高度的分布进行了二维模拟,并基于模拟对昼、夜气辉辐射强度分布特性及影响因素进行了分析. 相似文献
8.
1.27μm波段的氧分子近红外气辉是火星大气最重要的气辉辐射之一,该气辉高光谱分辨辐射传输模型的建立对于研制火星探测载荷,反演火星大气的风场温度场与臭氧浓度,以及研究火星空间物理,有重要的科学价值与工程意义.在研究火星大气O2(a1Δg)气辉光化学反应模型的基础上,提出了O2(a1Δg)气辉体辐射率的计算方法,并建立了火星大气气辉辐射传输理论;通过与用于研究火星大气特征的光谱学探测仪(Spectroscopy Spectrograph for the Investigation of Characteristics of the Atmosphere of Mars, SPICAM)的实测数据进行对比,验证了所建立的火星O2(a1Δg)气辉高光谱分辨辐射传输模型的准确性;针对火星与地球大气的O2(a1Δg)气辉,在体辐射率、自... 相似文献
9.
采用包括耗散的射线跟踪方法,计算了在水平不均匀风场作用下,不同尺度重力波从对流层直至220km观测高度的传播,结果表明,垂直于重力波传播方向的风以及风剪切能够引起波射线的折射,从而导致重力波明显偏离初始传播方向.在强顺风场作用下,由于风场引起的捕获,大量重力波不能传播到观测高度.由于风场引起的多普勒频移,小周期的重力波在弱顺风条件下能够传播到观测高度.由于反射作用,强逆风场不支持周期低于约18min的较高频重力波的传播.而在弱逆风作用下,大部分中尺度范围重力波都能够传播到观测高度.本文统计了武汉电离层观象台的TID观测数据随热层风场的分布,统计结果与模拟结果符合较好. 相似文献
10.
随着人类空间活动的快速发展,地球低轨航天器数量迅速增长,近地空间变得愈发拥挤.因此,亟需采取有效措施预报低轨航天器的运行轨迹,以避免卫星碰撞等事件的发生.热层大气对航天器的拖曳作用,是造成其轨道衰减的重要原因.然而,由于热层数值模式存在诸多不确定性参数,以及太阳和地磁活动等外部驱动难以预测等多种因素,热层大气预报误差会... 相似文献
11.
《Journal of Atmospheric and Solar》1999,61(6):461-478
Observations of wave-driven fluctuations in emissions from the OH Meinel (OHM) and O2 Atmospheric band were made with a narrow-band airglow imager located at Adelaide, Australia (35S, 138E) during the period April 1995 to January 1996. Simultaneous wind measurements in the 80–100 km region were made with a co-located MF radar. The directionality of quasi-monochromatic (QM) waves in the mesopause region is found to be highly anisotropic, especially during the solstices. During the summer, small-scale QM waves in the airglow are predominately poleward propagating, while during winter they are predominately equatorward. The directionality inferred from a Stokes analysis applied to the radar data also indicates a strong N–S anisotropy in summer and winter, but whether propagation is from the north or south cannot be determined from the analysis. The directionality of the total wave field (which contains incoherent as well as coherent features) derived from a spectral analysis of the images shows a strong E–W component, whereas, an E–W component is essentially absent for QM waves. The prevalence of QM waves is also strongly seasonally dependent. The prevalence is greatest in the summer and the least in winter and correlates with the height of the mesopause; whether it is above or below the airglow layers. The height of the mesopause is significant because for nominal thermal structures it is associated with a steep gradient in the Brunt-Väisälä frequency that causes the base of a lower thermospheric thermal duct to be located in the vicinity of the mesopause. We interpret the QM waves as waves trapped in the lower thermosphere thermal duct or between the ground and the layer of evanescence above the duct. Zonal winds can deplete the thermal duct by limiting access to the duct or by negating the thermal trapping. Radar measurements of the prevailing zonal wind are consistent with depletion of zonally propagating waves. During winter, meridional winds in the upper mesophere and lower thermosphere are weak and have no significant effect on meridionally propagating waves. However, during summer the winds in the duct region can significantly enhance ducting of southward propagating waves. The observed directionality of the waves can be explained in terms of the prevailing wind at mesopause altitudes and the seasonal variation of distant sources. 相似文献
12.
Atmospheric gravity waves, detected over Kiruna (67.8°N, 20.4°E) during geomagnetic storms, are presented and analysed. The data include direct measurements of the OI 630.0 nm emission line intensity, the x-component of the local geomagnetic field and thermospheric (meridional and zonal) wind velocities derived from the OI 630.0 nm Doppler shift observed with an imaging Fabry-Perot interferometer (IFPI). A low pass band filter technique was used to determine short-period variations in the thermospheric meridional wind velocities observed during geomagnetic storms. These short-period variations in the meridional wind velocities, which are identified as due to gravity waves, are compared to the corresponding variations observed in the OI 630.0 nm emission line intensity, x-component of the local geomagnetic field and the location of the auroral electrojet. A cross-correlation analysis was used to calculate the propagation velocities of the observed gravity waves. 相似文献
13.
HouMao Wang Chong Wang YongMei Wang XiaoXin Zhang Cong Huang ShaoLin Liang 《中国科学:地球科学(英文版)》2017,60(9):1732-1738
Fabry-Perot Interferometer(FPI) has been used widely for wind measurements of the middle and upper atmosphere.To date, most of FPIs have been based on full-closed circular fringe, which needs 15–25 min to obtain a group of wind velocity(zonal and meridional). However, it is hard to improve the temporal resolution because full-closed circular fringe in several directions cannot be easily imaged onto the same Charge-Coupled Device(CCD) with enough airglow intensity. In this paper, a data processing method is proposed for non-full circular fringe of FPI, which can support CCD with enough area of observations in several directions simultaneously. The method is focused on the center determination of non-full fringe. It includes radial cross-section, peak coordinate determination, and center calculation. Based on the calculated center, the fringe is annular summed. Then its radius is determined subsequently using Gaussian fitting. Finally, the wind is retrieved from the fringe radius. For validation, fringes from two ground-based FPIs were used, which are deployed in Kelan(38.71°N, 111.58°E) and Xinglong(40.40°N, 117.59°E) in China. The results retrieved from non-full fringes of FPIs were compared with that from full-closed circular fringe. The averaged wind deviation between them demonstrates reasonable difference with 5.38 ms~-(1) for 892.0 nm airglow emission, 5.81 ms~-(1) for 630.0 nm emission, and 3.03 ms~-(1) for 557.7 nm emission. Besides, wind results of Xinglong FPI are compared roughly with measurements of meteor radar which is deployed in Ming Tombs of Beijing(40.3°N,116.2°E). Good agreement demonstrates that this method is robust enough for FPI wind retrieval of mesosphere and thermosphere. 相似文献
14.
D. Rees R. W. Smith F. Signernes K. Henriksen U. Brandstrom M. Harris G. Maskall 《Annales Geophysicae》1998,16(11):1461-1474
Two Doppler imaging systems (DIS) or wide-field imaging Fabry-Perot interferometers (FPI), have recently been commissioned, one at the Auroral Station, Adventdalen, Longyearbyen, Svalbard, and the second at the IRF, Kiruna, Sweden. These instruments can provide wide-field (600 * 800 km) images of neutral wind flows in the upper thermosphere, by measuring the Doppler shift of the atomic oxygen forbidden near 630 nm, which is emitted from an altitude of approximately 240 km. From the instrument in Svalbard, at mid-winter, it is possible to observe the dayside polar cusp and the polar cap throughout the entire day, whereas from Kiruna, the night-time auroral oval is observable during the hours of darkness. Measurements of thermospheric dynamics from the DIS can be used in conjunction with observations of ionospheric plasma flows and thermal plasma densities by the EISCAT-Svalbard radar (ESR) and by EISCAT, along with other complementary observations by co-located instruments such as the auroral large-scale imaging system (ALIS). Such combined data sets will allow a wide range of scientific studies to be performed concerning the dynamical response of the thermosphere and ionosphere, and the important energetic and momentum exchange processes resulting from their complex interactions. These processes are particularly important in the immediate vicinity of the polar cusp and within the auroral oval. Early results from Svalbard in late 1995 will be discussed. The DIS in Kiruna observed two interesting geomagnetic disturbances in early 1997, the minor geomagnetic storm of 10, 11 January, and the disturbed period from 7–10 February. During these events, the thermospheric wind response showed some interesting departures from the average behaviour, which we attribute to the result of strong and variable Lorenz forcing (ion drag) and Joule and particle heating during these geomagnetic disturbances. 相似文献
15.
《Journal of Atmospheric and Solar》2002,64(12-14):1581-1587
We discuss a new optical technique for measuring daytime optical emissions. We elucidate the method of analysis for retrieving the daytime airglow and auroral emissions using this instrument and explain the procedure used to account for the Ring effect contribution. Finally, we show sample results of thermospheric oxygen dayglow emissions obtained by this instrument. 相似文献
16.
Scientific attention has recently been focused on the coupling of the earth’s upper atmosphere and ionosphere. In the present work, we review the advances in this field, emphasizing the studies and contributions of Chinese scholars. This work first introduces new developments in the observation instruments of the upper atmosphere. Two kinds of instruments are involved: optical instruments (lidars, FP interferometers and all-sky airglow imagers) and radio instruments (MST radars and all-sky meteor radars). Based on the data from these instruments and satellites, the researches on climatology and wave disturbances in the upper atmosphere are then introduced. The studies on both the sporadic sodium layer and sporadic E-layer are presented as the main works concerning the coupling of the upper atmosphere and the low ionosphere. We then review the investigations on the ionospheric longitudinal structure and the causative atmospheric non-migrating tide as the main progress of the coupling between the atmosphere and the ionospheric F2-region. Regarding the ionosphere-thermosphere coupling, we introduce studies on the equatorial thermospheric anomaly, as well as the influence of the thermospheric winds and gravity waves to the ionospheric F2-region. Chinese scholars have made much advancement on the coupling of the ionosphere and upper atmosphere, including the observation instruments, data precession, and modeling, as well as the mechanism analysis. 相似文献
17.
The characteristics of different-scale acoustic gravity waves (wavelengths of 100–1200 km, periods of 10–50 min) under different geophysical conditions have been studied using a numerical model for calculating the vertical structure of these waves in a nonisothermal atmosphere in the presence of an altitudedependent background wind and in a situation when molecular dissipation is taken into account. It has been established that all considered acoustic gravity waves (AGWs) effectively reach altitudes of the thermosphere. The character of the amplitude vertical profile depends on the AGW scales. The seasonal and latitudinal differences in the AGW vertical structure depend on the background wind and temperature. A strong thermospheric wind causes the rapid damping of medium-scale AGWs propagating along the wind. Waves with long periods to a lesser degree depend on dissipation in the thermosphere and can penetrate to high altitudes. A change in the geomagnetic activity level affects the background wind vertical distribution at high latitudes, as a result of which the AGW vertical structure varies. 相似文献
18.
The MICADO instrument, consisting of a Michelson interferometer, has observed winds and temperatures during three winter campaigns in the auroral zone, and during 2 years at the Observatoire de Haute-Provence. The instrument observed the O(1S) oxygen emission line. Emission from this line originates from both the E- and F-regions. A method to separate the contribution from these two regions is presented for cases when the thermospheric component is comparable to that for the mesosphere. For the auroral latitudes, a mean model of the meridional and zonal neutral wind components as a function of magnetic activity and time is presented and compared to predictions from recent empirical models. For the mid-latitudes, several properties of the semi-diurnal tides are shown and compared to radar observations and predictions from recent theoretical models. 相似文献