共查询到20条相似文献,搜索用时 31 毫秒
1.
B. G. Shpynev A. V. Oinats V. P. Lebedev M. A. Chernigovskaya I. I. Orlov A. Yu. Belinskaya O. M. Grekhov 《Geomagnetism and Aeronomy》2014,54(4):500-512
Long-term variations in the parameters of the Earth’s upper atmosphere and geophysical activity have been studied based on the current spectra. The main sources of quasiperiodic oscillations in the atmosphere (including variations in the solar radiation, geomagnetic activity, and gravity) have been considered. It was shown that the most stable quasiharmonic variations are related to tidal gravitational oscillations and Rossby planetary waves with stable spectra. These oscillatory processes substantially contribute to the dynamics of the middle and upper atmosphere and manifest themselves in ionospheric parameters. 相似文献
2.
A brief review of the current state of studies of long-term trends in the middle and upper atmosphere and ionosphere is presented. It is shown that the present trends in the density and temperature of the upper atmosphere and parameters of the ionospheric layers may lead to changes in the aforementioned spheres. It would be necessary to take into account these trends in applied problems related to planning space vehicle orbits, propagation of radio waves, measurements at low-orbiting satellites, and so on. It is emphasized that the Helio–Geophysical Service of the State Committee of Hydrometeorology, which supplies customers with information on the state of the upper atmosphere, ionosphere, and near-Earth space, should develop information products related to possible changes in atmospheric and ionospheric parameters caused by the presence of the long-term trends. 相似文献
3.
A. D. Danilov 《Geomagnetism and Aeronomy》2012,52(3):271-291
The current views on long-term changes in parameters (trends) in the upper atmosphere and ionosphere are considered. The concept
of cooling and contraction of the middle and upper atmosphere due to the increase in the amount of greenhouse gases in the
atmosphere is described. 相似文献
4.
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
5.
S. I. Boldyrev O. P. Kolomytsev G. S. Ivanov-Kholodny A. P. Ignatyev 《Geomagnetism and Aeronomy》2009,49(8):1278-1282
The present-day models of the Earth’s upper atmosphere make it possible to construct the spatial-temporal pattern of variations
in the atmospheric parameters on the planetary scale in essence in the averaged form. The set of data on the satellite deceleration
in the atmosphere, probe measurements aboard geophysical rockets, and radiowave incoherent scatter measurements in the Earth’s
atmosphere are used to construct these standard models. The current level of the space studies makes it possible to use a
new method to study the Earth’s upper atmosphere: to study the upper atmosphere by measuring the absorption of the solar XUV
radiation by the Earth’s atmosphere during the solar disk observations. 相似文献
6.
V. G. Mordovskaya A. P. Ignat’ev S. I. Boldyrev S. A. Boldyrev G. S. Ivanov-Kholodnyi O. P. Kolomiitsev 《Geomagnetism and Aeronomy》2010,50(5):679-685
A method for determining the basic atmosphere O/N2 based on the solar observations is described. It is shown that, on XUV images of the Sun received by transillumination of
the atmosphere, it is possible to observe its state controlling the O/N2 ratio. The method allows local inhomogeneities of the upper atmosphere to be studied. Its abilities were demonstrated according
to the SPIRIT complex on board the Coronas-F satellite. 相似文献
7.
S. I. Boldyrev G. S. Ivanov-Kholodny O. P. Kolomiitsev A. I. Osin 《Geomagnetism and Aeronomy》2011,51(4):546-549
This article studies long-period variations in the Earth’s upper atmosphere density over several solar activity cycles, using
long-term data on the evolution of motion of three artificial satellites (Intercosmos-19, Meteor-1-2, and Cosmos-1154) in
orbits at heights of 400–1000 km. The time interval when the satellites were in the orbits covered three solar activity cycles
(partly the 21st, completely the 22nd, and partly the 23rd). It is found that the variations in the average density of the
upper atmosphere at heights of 400–600 km in the 1980–2000 period were governed by the changes in the solar activity level. 相似文献
8.
The results of a model study of the acoustic gravity wave (AGW) propagation from the Earth’s surface to the upper atmospheric altitudes have been considered. Numerical calculations have been performed using a nonhydrostatic model of the atmosphere, which takes into account nonlinear and dissipative processes originating when waves propagate upward. The model source of atmospheric disturbances has been specified in an area localized on the Earth’s surface. The disturbance source frequency spectrum includes harmonics at frequencies of 0.5ωg-1.5ωg (ωg is the Brunt-Väisälä frequency near the Earth’s surface). The calculations indicated that AGW propagation and dissipation over the source result in the fact that the region of large-scale spatial disturbances of the upper atmosphere mean state is formed at ~200 km altitudes. This region substantially affects AGW propagation and results in waveguide propagation of AGWs with periods shorter than the Väisälä-Brunt period at the altitude of a disturbed atmosphere. The dissipation of AGWs propagating in such a waveguide results in a waveguide horizontal expansion. The extension of the disturbed region of the mean state of the upper atmosphere and, consequently, the waveguide length can reach ~1000 km, if the AGW ground source operates for ~1 h. The physical mechanism by which large-scale disturbances are formed in the upper atmosphere, based on the propagation and dissipation of AGWs with periods shorter than the Väisälä-Brunt period in the upper atmosphere, explains why these disturbances are rapidly generated and localized above AGW sources located on the Earth’s surface or in the lower atmosphere. 相似文献
9.
A mathematical model has been proposed for describing quasi-stationary atmospheric electric fields with approximate, but fairly
accurate allowance for ionospheric conductivity. It is shown that some well-known models of electric field penetration from
the Earth into the ionosphere have been deemed inadequate, though they work well in the atmosphere below 50 km. In these models,
the arbitrarily specified boundary condition in the upper boundary of the atmosphere omits the existing good conductor or
adds not existent conductor. The maximum possible field in our model is far less than in models where ionospheric conductivity
is not taken into account, but vastly larger than in models based on the approximation with infinite Pedersen conductivity
in the upper ionosphere. 相似文献
10.
Martin J. Jarvis 《Surveys in Geophysics》2001,22(2):155-174
Within the global context, Antarctica has a key role to play in understanding long-term change in the upper atmosphere, both because of its isolation from the rest of the world and because of its unique geophysical attributes. Antarctic upper atmosphere data can provide global change observations regarding the mesosphere, thermosphere, ionosphere, plasmasphere and magnetosphere. It will not only provide trend estimates but, just as importantly, it will define the background variability which exists in the upper atmosphere and against which these trends must be resolved. Upper atmospheric change can be driven both from within the Earth's near environment primarily through changing atmospheric composition, dynamics or geomagnetic field, or it can be driven externally, predominantly by the Sun. Recent observations are discussed in the light of increasing interest in global change issues and sun-weather relationships. 相似文献
11.
The vibrational distribution of nitric oxide in the polar ionosphere computed according to the one-dimensional non-steady model of chemical and vibrational kinetics of the upper atmosphere has been compared with experimental data from rocket measurement. Some input parameters of the model have been varied to obtain the least-averaged deviation of the calculated population from experimental one. It is shown that the least deviation of our calculations from experimental measurements depends sufficiently on both the surprisal parameter of the production reaction of metastable atomic nitrogen with molecular oxygen and the profile of atomic oxygen concentration. The best agreement with the MSIS-83 profile was obtained for the value of surprisal parameter corresponding to recent laboratory estimations. The measured depression of level v = 2 is obtained in the calculation that uses sufficiently increased concentrations of atomic oxygen. It is pointed out that similar measurements of infrared radiation intensities could be used to estimate the atomic oxygen concentrations during auroral disturbances of the upper atmosphere. 相似文献
12.
Lightning Applications in Weather and Climate Research 总被引:1,自引:0,他引:1
Colin G. Price 《Surveys in Geophysics》2013,34(6):755-767
Thunderstorms, and lightning in particular, are a major natural hazard to the public, aviation, power companies, and wildfire managers. Lightning causes great damage and death every year but also tells us about the inner working of storms. Since lightning can be monitored from great distances from the storms themselves, lightning may allow us to provide early warnings for severe weather phenomena such as hail storms, flash floods, tornadoes, and even hurricanes. Lightning itself may impact the climate of the Earth by producing nitrogen oxides (NOx), a precursor of tropospheric ozone, which is a powerful greenhouse gas. Thunderstorms themselves influence the climate system by the redistribution of heat, moisture, and momentum in the atmosphere. What about future changes in lightning and thunderstorm activity? Many studies show that higher surface temperatures produce more lightning, but future changes will depend on what happens to the vertical temperature profile in the troposphere, as well as changes in water balance, and even aerosol loading of the atmosphere. Finally, lightning itself may provide a useful tool for tracking climate change in the future, due to the nonlinear link between lightning, temperature, upper tropospheric water vapor, and cloud cover. 相似文献
13.
Geomagnetism and Aeronomy - It is shown that that there are currently trends in the parameters of the middle and upper atmosphere and ionosphere that are already leading or may lead in the near... 相似文献
14.
Dmitri V. Alexandrov Irina A. Bashkirtseva Alexey P. Malygin Lev B. Ryashko 《Pure and Applied Geophysics》2013,170(12):2273-2282
The influence of stochastic fluctuations in the atmosphere and in the ocean caused by different occasional phenomena (noises) on dynamic processes of sea ice growth with a mushy layer is studied. It is shown that atmospheric temperature variances substantially increase the sea ice thickness, whereas dispersion variations of turbulent flows in the ocean to a great extent decrease the ice content produced by false bottom evolution. 相似文献
15.
本文根据气体分子运动论导出了垂直动力传输函数,此函数可以代替Nicolet和Mangc的混合比,较好地描述高层大气中从完全混合状态向扩散分离状态的过渡过程。分析了高层大气中湍流运动的观测结果,给出了湍流系数随高度分布的几个模式,利用这些模式计算了惰性气体氩、氦与氮的数密度比的高度剖面,并与箭载质谱仪探空资料作了比较。根据光化-动力传输理论,计算了上中层及低热层大气主要化学成份的高度分布。结果表明:垂直动力传输明显地影响着大气成份的分布。文中还指出,氧分子的光离解系数与其数密度的高度剖面耦合在一起,因而应当由上向下数值求解有源有汇的连续方程组,这样可避免由于光离解系数的假设所造成的误差。 相似文献
16.
Specific optical phenomena observed in the upper atmosphere layers and connected with launches of powerful solid-propellant rockets are considered: the development of spherically symmetric gas-dust formations having the shape of an extending torus in the image plane and the formation of regions with intense blue-green (turquoise) glow observed under twilight conditions along a rocket’s flight path. The development of clouds can be represented by the model of a strong explosion occurring at the stage separation of solid-propellant rockets in the upper atmosphere. A turquoise glow arises as a result of resonance scattering of solar radiation on AlO molecules that are formed when metallic aluminum in the composition of fuel interacts with atmosphere components and combustion products. 相似文献
17.
为了研究攀枝花-西昌构造带的地壳与上地幔顶部结构,在西起丽江东至者海全长350km的测线上进行了爆炸地震探测。本文利用所取得的六条地震记录剖面的Pg波组,研究测线下方地壳浅层结构。采用层状垂直梯度和横向不均匀模型,用理论走时和射线追踪方法来拟合实测Pg走时资料。得到深度为10km范围的地壳浅层结构和速度分布。 结果表明,该区地表P波速度以渡口至华坪一带为最高,达6.00km/s。向东西两侧逐步减小,东至者海为5.20km/s,西至丽江降为3.50km/s。局部地段因构造影响速度值有些起伏。从浅层结构和速度分布可见,该区存在箐河-程海、绿汁江、安宁河和甘洛-小江等深断裂带,并向地壳深部延伸。等速度线图表明,该区上地壳中有一高速岩体存在。攀枝花钒、钛、铁矿的富集以及其他热液型矿床的分布很可能与此有关。 相似文献
18.
Despite substantial progress in atmospheric modeling, the agreement of the simulated atmospheric response to decadal scale solar variability with the solar signal in different atmospheric quantities obtained from the statistical analysis of the observations cannot be qualified as successful. An alternative way to validate the simulated solar signal is to compare the sensitivity of the model to the solar irradiance variability on shorter time scales. To study atmospheric response to the 28-day solar rotation cycle, we used the chemistry–climate model SOCOL that represents the main physical–chemical processes in the atmosphere from the ground up to the mesopause. An ensemble simulation has been carried out, which is comprised of nine 1-year long runs, driven by the spectral solar irradiance prescribed on a daily basis using UARS SUSIM measurements for the year 1992. The correlation of zonal mean hydroxyl, ozone and temperature averaged over the tropics with solar irradiance time series have been analyzed. The hydroxyl has robust correlations with solar irradiance in the upper stratosphere and mesosphere, because the hydroxyl concentration is defined mostly by the photolysis. The simulated sensitivity of the hydroxyl to the solar irradiance changes is in good agreement with previous estimations. The ozone and temperature correlations are more complicated because their behavior depends on non-linear dynamics and transport in the atmosphere. The model simulates marginally significant ozone response to the solar irradiance variability during the Sun rotation cycle, but the simulated temperature response is not robust. The physical nature of this is not clear yet. It seems likely that the temperature (and partly the ozone) daily fields possess their own internal variability, which is not stable and can differ from year to year reflecting different dynamical states of the system. 相似文献
19.
The main features of upper atmosphere dynamics as an important part of upper atmosphere climatology are presented. The dynamics
of the mesosphere and lower thermosphere (MLT) are of special interest. The results are based on the long series of investigations
in East Siberia and data from a world-wide network of observatories. We present the regional climatic norms for the prevailing
wind and semi-diurnal tide and the main features of the quasi-periodic structure of the wind field. The non-zonality of MLT
dynamics is demonstrated as well as regional differences in the response of the wind field to stratospheric disturbances,
solar activity variations and geomagnetic storms. 相似文献
20.
Physical models of coupling in the lithosphere-atmosphere-ionosphere system before earthquakes 总被引:1,自引:0,他引:1
V. A. Liperovsky O. A. Pokhotelov C. -V. Meister E. V. Liperovskaya 《Geomagnetism and Aeronomy》2008,48(6):795-806
The most important models of coupling in the lithosphere-atmosphere-ionosphere system are considered. In some of these models, it is assumed that atmospheric acoustic and acoustic gravity waves (AGWs), which propagate through the atmosphere and reach ionospheric altitudes (resulting in the generation of electric field disturbances and modulation of charged particle density), are generated in the near-Earth atmosphere over the earthquake preparation region. In other models it is assumed that ionospheric disturbances originate owing to the modification of electric fields and currents due to electric processes in the lithosphere or near-Earth atmosphere. It seems impossible to stress on only one model and reject the remaining models because the characteristic spatial scales of effects observed in the ionosphere before earthquakes vary from 200–300 km to several thousand kilometers, and the characteristic times vary from several minutes to several days. We can assume that there are several physical mechanisms by which the lithosphere-ionosphere coupling is actually implemented. 相似文献