共查询到20条相似文献,搜索用时 78 毫秒
1.
It is well known that the 630-nm nightglow emission intensity in midlatitudes increases by more than a factor of 2 during a sunspot maximum. It has been assumed that the phenomenon is caused by variations in solar UV radiation during a solar cycle (Fishkova, 1983). We present the results of photometric measurements of the nightglow 630.0 nm emission intensity at a latitude of 63° E and longitude of 130° E (Yakutsk) in 1990–2007. The dependence of the 630-nm emission intensity on solar activity on magnetically quiet days in the 22nd and 23rd solar cycles is shown. The close relationship between the 630-nm nightglow intensity and the intensity of extreme UV (EUV) with a correlation coefficient of 0.8–0.9 in 1997–2007 is ascertained from the SOHO/SEM data. The dominance of solar EUV in the excitation of nightglow 630-nm emission has thus been experimentally proved. 相似文献
2.
通过对195-1990年3个太阳黑子周期期间不同纬度台站的ES层的临界频率f0ES的观测数据进行统计分析,研究了太阳活动对ES层的强度与出现率的影响,主要结果为:f0ES的年平均值在白天与太阳活动呈强正相关,在夜间呈负相关. 同样,ES的出现率的年变化与太阳活动的关系也是白天呈正相关,夜间呈负相关. 进一步分析表明,上述白天ES层临界频率与太阳活动的正相关性的主要贡献来自于常规E层与太阳活动的强烈相关性. 消除了背景E层电子密度的作用后,ES层的强度在白天与太阳活动呈微弱的正相关,在夜间呈负相关,其相关系数有比较规则的周日变化或半日变化. 相似文献
3.
4.
The observations of solar activity (average monthly values of the international sunspot numbers and areas, solar radioemission flux at a wavelength of 10.7 cm) and galactic cosmic ray (GCR) intensity (average monthly values of the count rate of an omnidirectional Geiger counter at a maximum of the transition curve in the regions of Moscow and Murmansk and differences between these values) have been studied. The main aim of the studies was to assess the possibility of using the series of GCR values as an additional type of instrumental observations to predict solar activity. The results of an analysis made it possible to assess the degree of interrelation between the studied time series and, thereby, to confirm that GCRs, together with the characteristics of sunspot formation and solar radioemission flux at a wavelength of 10.7 cm, can be used to predict solar activity. The development of the current solar cycle has been predicted. It is assumed that the duration of this cycle will exceed the average value. 相似文献
5.
本文研究赤道异常逐日起伏程度的年变化规律,发现它与太阳活动及地磁活动呈微弱的负相关,但却受到QBO的明显调制,QBO东风相起伏加大,QBO西风相起伏减小.这一事实似乎表明,太阳爆发或磁暴不是产生赤道异常逐日起伏的主要原因;而上行行星波的扰动有可能是引起赤道异常逐日起伏的主要原因. 相似文献
6.
Sq电流体系的产生与太阳密切相关,太阳的活动情况会对Sq电流体系造成直接的影响.本文应用1996年至2006年(第23太阳周)INTERMAGNET地磁台网以及中国地震局地球物理研究所国家地磁台网中心的全球地磁场观测数据,通过球谐分析的方法建模,对11年期间每月Sq内外源等效电流体系进行分离,分析Sq内外源等效电流在太阳活动周中的变化情况.结果表明,Sq内外源等效电流强度与太阳黑子的变化具有较高的相关性和一致性,内外源等效电流强度在太阳活动高年期间明显大于其在太阳活动的上升年和下降年期间的强度;Sq内外源等效电流焦点的纬度变化与太阳活动没有显著的一致性;Sq内外源等效电流强度的季节效应在太阳活动的高年和低年具有显著的差别,太阳活动高年期间等效电流强度在分点季节最大,而在其他年份南北半球的等效电流强度都是在各自半球的夏季达到最大. 相似文献
7.
Florian Nichitiu James R. Drummond Jiansheng Zou Robert Deschambault 《Journal of Atmospheric and Solar》2004,66(18):40
This paper reports on Device Single Events (DSEs) occurring in the Measurements Of Pollution In The Troposphere (MOPITT) space instrument piezoelectric accelerometers. It is found that DSEs correlate with the radiation environment, solar activity and high intensity Solar Proton Events. 相似文献
8.
We study temporal changes of the rigidity (R) spectrum of the harmonics of the 27-day variation of the galactic cosmic ray (GCR) intensity using neutron monitors (NM) data for the period 1965–2002. We show that the rigidity spectrum of the third harmonic (9 days) of the 27-day variation of the GCR intensity changes in a similar way as the spectra of the first and second harmonics, being hard in the maximum epochs and soft in the minimum epochs of solar activity. We ascribe this finding to the alternation of the sizes of the modulation regions of the 27-day variation of the GCR intensity in different epochs of solar activity. The average size of the vicinity of the corotating interaction regions, causing the 27-day variation of the GCR intensity, is less in the minimum epochs than in the maximum epochs of solar activity. A vicinity of the corotating interaction regions of larger size involves in modulation higher rigidity particles of GCR than the vicinity of smaller size; thus, this statement can be considered as one of the reasons leading to the hardening of the rigidity spectrum of the harmonics of the 27-day variation of the GCR intensity in maximum epochs compared with minimum epochs of solar activity.We also show that the temporal changes of the power rigidity spectrum of the third harmonic of the 27-day variation of the GCR intensity are negatively correlated with the rigidity spectrum of the 11-year variation of the galactic cosmic ray intensity.We found a recurrence in the temporal changes of the amplitudes of the first harmonic of the 27-day variation of the GCR intensity and in some parameters of solar activity and solar wind. 相似文献
9.
The relation between the long-term variations in the thunderstorm VLF radio noise intensity and solar activity in 1979–2006
has been studied. The sunspot number (the Wolf number) was used as a parameter characterizing solar activity. The intensity
of VLF noise registered in Yakutsk characterizes thunderstorm activity in Eastern Siberia (0100–0500 UT) and in the African
thunderstorm center (1300–1700 UT). Using the results of a correlation analysis, it has been found that thunderstorm activity
in Eastern Siberia and in the African world centre is in antiphase with a change in the sunspot number. The highest anticorrelation
coefficients between solar activity and thunderstorm discharge intensity were obtained for thunderstorms in Eastern Siberia.
In this case the maximal correlation coefficients (R = −0.59 and −0.75) were obtained for the average monthly values of the VLF radio noise intensity in August, measured at 0400
UT and 1600 UT, respectively. 相似文献
10.
V. I. Larkina 《Geomagnetism and Aeronomy》2009,49(8):1260-1263
The results of recording the intensity of low-frequency electromagnetic emissions at altitudes of the outer ionosphere based
on satellite data at various levels of solar activity have been investigated. The intensity of low-frequency emissions has
been found to depend on the solar activity, i.e., the spatial noise characteristics vary. Mean values of the noise amplitude
variations at various phases of the solar activity cycle are presented. The low-frequency emissions are shown to serve as
a source of information about the processes in the surface plasma; in particular, the state of the radiation belts is judged
from them. The noise carries information about the variations in the particle fluxes intruding into the Earth’s plasmasphere
under various solar activity conditions and about the magnetospheric plasma variations related to the growth of solar activity.
In other words, the electromagnetic low-frequency noise can be a peculiar kind of indicator of the solar activity and the
state of the magnetosphere. 相似文献
11.
A. A. Nusinov 《Geomagnetism and Aeronomy》2008,48(4):472-478
It has been proposed to use the cumulative indices, applicable when macroeconomic processes are analyzed, to study long-term trends in different heliogeophysical factor, which vary under the action of cyclic changes in solar activity. It has been indicated that trends of the UV intensity in the Lyman-α line (reconstructed based on the ionospheric data) are almost absent for the period 1957–2004. 相似文献
12.
During the prolonged and deep minimum of solar activity between cycles 23 and 24, an unusual behavior of the heliospheric characteristics and increased intensity of galactic cosmic rays (GCRs) near the Earth’s orbit were observed. The maximum of the current solar cycle 24 is lower than the previous one, and the decline in solar and, therefore, heliospheric activity is expected to continue in the next cycle. In these conditions, it is important for an understanding of the process of GCR modulation in the heliosphere, as well as for applied purposes (evaluation of the radiation safety of planned space flights, etc.), to estimate quantitatively the possible GCR characteristics near the Earth in the upcoming solar minimum (~2019–2020). Our estimation is based on the prediction of the heliospheric characteristics that are important for cosmic ray modulation, as well as on numeric calculations of GCR intensity. Additionally, we consider the distribution of the intensity and other GCR characteristics in the heliosphere and discuss the intercycle variations in the GCR characteristics that are integral for the whole heliosphere (total energy, mean energy, and charge). 相似文献
13.
《Journal of Atmospheric and Solar》2008,70(1):169-183
We study the cosmic ray modulation during different solar cycles and polarity states of the heliosphere. We determine (a) time lag between the cosmic ray intensity and the solar variability, (b) area of the cosmic ray intensity versus solar activity modulation loops and (c) dependence of the cosmic ray intensity on the solar variability, during different solar activity cycles and polarity states of the heliosphere. We find differences during odd and even solar cycles. Differences during positive and negative polarity periods are also found. Consequences and implications of the observed differences during (i) odd and even cycles, and (ii) opposite polarity states (A<0 and A>0) are discussed in the light of the modulation models, including drift effects. 相似文献
14.
Long-period variations in the cyclonic activity at middle and subpolar latitudes of the North Atlantic are studied on the basis of the data from the MSLP archive of the surface pressure (Climatic Research Unit, UK) for 1874–1995. It has been found that in the cold half year (the period of the most intense formation and development of extra-tropical cyclones) in the studied region, oscillations of the surface pressure with periods close to the main periods of solar activity (~80 and ~11 years) are observed. The obtained results make it possible to assume that solar activity and related variations in the galactic cosmic rays are one of the factors influencing the intensity of cyclonic processes at midlatitudes on the time scales of ~10 to ~100 years. 相似文献
15.
We studied the inter-annual distributions of the nightglow intensities of the thermosphere atomic oxygen red 630.0 nm and green 557.7 nm lines observed from Abastumani during cloudless nights, the planetary geomagnetic Ap index, solar F10.7, and galactic cosmic rays (GCRs) flux. It is demonstrated that: on magnetically weakly disturbed/ quiet conditions (Ap < 12) in equinoctial months the red line intensities are minimal, while those of the green line are maximal; the red line intensity increases in May-July and is comparatively low in June, where, unlike most mid-latitude regions, the green line intensity is maximal. The red and green line intensities increase with growing solar activity but their behaviors stay the same, which is considered as a possible regional manifestation of lower and upper atmosphere vertical coupling. It was also detected that, for cloudless nights in June, the number of magnetically disturbed day-nights is maximal and the decrease of the GCRs flux is the biggest during a year. 相似文献
16.
Using a numerical model for temperature and neutral and ion composition behaviour at middle atmospheric heights, an analysis has been made of the dependence of atmospheric structural parameters on temperature, solar activity, and on turbulent transfer intensity. For mesospheric heights, an inverse dependence of the nitric oxide density on the temperature has been found. It is thus possible to explain experimentally obtained temperature variations over a cyclc of solar activity at mesospheric and lower thermospheric heights. Numerical simulation results indicate that the temperature in the height range 75–120 km depends considerably on both the absolute values of turbulent transfer coefficients and their vertical gradients. 相似文献
17.
Ludmila Triskova Vladimir Truhlik Katerina Podolska 《Journal of Atmospheric and Solar》2011,73(5-6):623-626
The upper ionosphere electron density characterized by the critical frequency foF2 is correlated with solar activity when using monthly medians or averages from longer intervals. When shorter intervals are studied, time delays of different lengths in solar activity effects in the ionosphere are observed. The correlation between the foF2 values and the solar radiation intensity, given by the F10.7 index, is studied using the 1967–2003 data of mid-latitude ionosonde stations spaced at distances greater than 100° in geographical longitude. At which longitude the reaction of foF2 to the changes in solar activity appears sooner depends on the position of the interval studied in the 22-year solar cycle. 相似文献
18.
《Journal of Atmospheric and Solar》2000,62(9):725-735
Influence of short-term changes in solar activity on baric (pressure) field perturbations is studied using such characteristics as the Sazonov index (IS), describing the intensity of meridional transfer, the Blinova index (IB), describing the intensity of zonal transfer, and ‘vorticity area index’ (VAI) describing the tropospheric cyclonic perturbations. The epoch superposition method is used to reveal effects of the solar central meridian (CM) passage of active regions, the Forbush decreases (FD) in galactic cosmic rays, and the solar proton (SP) events. The results of the analysis show that influence of short-term changes in the solar activity on baric field perturbations is the most evident in the stratosphere (30 mbar-level). The meridional circulation in case of the FD and SP events begin to increase about 5–7 days before the key date, reaches maximum nearby the key date and decays after the key date. The meridional circulation in case of the solar CM passage of active regions starts to increase after the key date and reaches the maximum by 5–6 days. Fluctuations of baric field within periods of 5–7 days typical of meridional and zonal transfers in troposphere (500 mbar-level) are evidently connected with internal dynamics of the atmosphere, not with the effects of solar activity. VAI characterizing cyclonic activity in the troposphere, shows the striking correspondence to changes of the meridional circulation in the stratosphere. Comparison of changes in the stratospheric perturbations with behavior of the UV irradiance in course of the FD and SP events show their full correspondence at the initial stage of these processes. The conclusion is made that growth of baric perturbations observed in the stratosphere in associations with the FD and SP events before the key date is caused by the solar UV irradiance increase, whereas decay of the baric perturbations after the key date is related to direct influence of the solar energetic corpuscular fluxes on the stratosphere. 相似文献
19.
Pauline Green 《Pure and Applied Geophysics》1972,101(1):194-204
Summary Mean hourly values of magnetic declination, horizontal intensity and vertical intensity observed at Toolangi during two ten year periods (1924–1933 and 1949–1958) have been analysed to determine their solar and luni-solar diurnal components. The results, showing the variations of the first four harmonic components with season, degree of magnetic activity and annual sunspot number, are tabulated and discussed. It is shown that there are marked differences in the dependence ofS andL on the various parameters and a tentative explanation of this phenomenon is given. 相似文献
20.
利用ISEE-1和ISEE-2飞船观测的磁场数据,分析了地球内磁层场向电流的统计特征,包括场向电流的空间(L值和地方时)分布;流进和流出电离层的场向电流随地方时的变化;场向电流发生率与地磁活动水平(以AL指数表征)、行星际磁场(IMF)Bz的关系,电流强度和密度随地磁活动水平的变化等.发现,场向电流大都发生在夜间,且集中在L为6-10区域内,场向电流发生率,强度和密度随地磁活动增强而增大,行星际磁场南向时的发生率远远高于北向时的发生率.这些结果表明,内磁层场向电流的产生是太阳风和磁层、电离层间电动耦合增加的结果. 相似文献