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1.
从日地关系的角度出发,探讨太阳活动对人类流行性疾病的影响,根据云南地区自建国以来的15种流行性疾病每年人数的资料,对每种疾病人流的相对比率与太阳黑子相对数对应用图比较,并求其相关系数。考察结果为:猩红热,疟疾,炭疽,百日咳,白喉,流感,乙脑,痢疾,麻疹,脊髓灰质炎,姜片虫病,肝炎与太阳活动的关系不明确,伤寒,斑疹伤寒和流脑与太阳活动显著相关。 相似文献
2.
太阳黑子相对数与人类疾病关系的初步分析 总被引:2,自引:0,他引:2
从日地关系的角度出发,探讨太阳活动对人类疾病有何影响。本文根据南京市传染病医院的资料,对每种疾病人数的相对比率与太阳黑子相对数对应作图比较,并求出其相关系数。我们的初步结果表明:伤寒和猩红热的发病率与太阳活动11年周期变化一致,它们在同年达到极大值,其它的不明确。 相似文献
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不少人用统计方法研究太阳黑子数序列或者太阳黑子周本身各参量间的关系,做太阳活动周预报。第21周只有少数这类预报的结果与实际情况相近。第22周也会有类似的趋势,即预报较实测偏低较多。为改进预报,研究太阳黑子活动的性质是有益的。黑子数是一个缺乏物理意义的统计量,人们已经找到和正在寻找新的太阳活动指标。但是黑子数的观测历史较长,用户广,而且作为一个统计量它能反映太阳活动的时间变化,所以仍是一个常用的参量。同时,应该看到太阳活动是一个广泛含意的概念,不应把它只与黑子数相联系。为了满足用户的不同要求,应该用多种太阳活动指标做预报。另外,从SMM卫星和GOES卫星的观测资料分析得出耀斑的152天周期性,地面观测资料也得到了同样的结果。这类研究也必然有助于预报工作。本文对与上述问题有关的几点做些简短的讨论。 研究发现,太阳活动周各参量间的关系是比较复杂的。例如,太阳周黑子数极大值与上升段的关系似乎可以用两条直线表示(图1),极小年均值与起伏之间也象是双线关系(图2)。这种非唯一的关系至少是太阳活动周预报不准的主要原因之一,也可能是太阳预报提前期越长越不准的原因之一。 太阳活动是一个意义广泛的概念,可以用多种指标描述太阳活动的不同方面。而且应注意到不同指标之间在 相似文献
6.
太阳活动对中国中纬度地区8级大地震的可能触发 总被引:4,自引:0,他引:4
研究了发生在中国中纬地区(20°~40)°Ms≥8的大地震与太阳活动的关系,发现地震的发生时间多处在太阳活动周的降段至谷段,并且具有统计意义,显示出太阳活动和地震活动的相关联性。联想到中纬度地区洪水与太阳活动负相关,即在太阳活动低年,降雨充沛,甚至发生水灾。作者认为大雨引起的地下水位上升,岩石被水浸泡后,耐剪强度下降,从而使已孕育的大地震容易触发。 相似文献
7.
高能粒子流对地震活动的可能调制 总被引:10,自引:2,他引:8
把地球作为一个开放系统,本文分析了不同地域范围的地震活动和太阳活动的关系,发现不同地域的地震活动也存在着一个大约11年的周期,这个周期可能与太阳活动的11年左右周期有关,但地震周期的峰值对应于太阳活动的下降段。它们的关系是负相关关系,本文进一步着重分析了地震活动与高速太阳风粒子流和宇宙线高能粒子流的关系,发现它们之间存在着一信信度水平很高的正相关,这样,我们可以推测太阳活动可能是通过调制到达地球的 相似文献
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研究发现,太阳自转速率的变化与太阳活动之间存在一定的联系,但是不同学者的研究结论存在着矛盾:有的认为两者为正相关,而有的却认为是负相关.究竟两者之间是什么关系,需要做进一步深入的分析.利用EEMD (Ensemble Empirical Mode Decomposition)等方法对太阳自转速率和太阳黑子数据序列进行相关关系以及相位关系的计算和分析,以探讨太阳自转速率变化与太阳活动之间的关系.研究发现:两者的长期趋势项分量呈显著负相关;在11 yr左右周期分量上,观测到的太阳自转速率滞后太阳黑子的变化约2 yr时,呈显著负相关关系,超前3 yr时呈现次显著的正相关;对太阳活动第12–23周各周内部太阳黑子与太阳自转速率的相关分析表明,两者的关系比较复杂,但负相关关系更为显著.这为进一步理解太阳活动变化与太阳自转速率变化之间的成因联系提供了新的依据. 相似文献
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把地球作为一个开放系统,本文分析了不同地域范围的地震活动和太阳活动的关系,发现不同地域的地震活动也存在着一个大约11年的周期,这个周期可能与太阳活动的11年左右周期有关,但地震周期的峰值对应于太阳活动的下降段。它们的关系是负相关关系。本文进一步着重分析了地震活动与高速太阳风粒子流和宇宙线高能粒子流的关系,发现它们之间存在着一个信度水平很高的正相关。这样,我们可以推测太阳活动可能是通过调制到达地球的高能粒子流进而调制地震活动的。 相似文献
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In this paper we first emphasize why it is important to know the successive zonal harmonics of the Sun's figure with high
accuracy: mainly fundamental astrometry, helioseismology, planetary motions and relativistic effects. Then we briefly comment
why the Sun appears oblate, going back to primitive definitions in order to underline some discrepancies in theories and to
emphasize again the relevant hypotheses. We propose a new theoretical approach entirely based on an expansion in terms of
Legendre's functions, including the differential rotation of the Sun at the surface. This permits linking the two first spherical
harmonic coefficients (J
2 and J
4) with the geometric parameters that can be measured on the Sun (equatorial and polar radii). We emphasize the difficulties
in inferring gravitational oblateness from visual measurements of the geometric oblateness, and more generally a dynamical
flattening. Results are given for different observed rotational laws. It is shown that the surface oblateness is surely upper
bounded by 11 milliarcsecond. As a consequence of the observed surface and sub-surface differential rotation laws, we deduce
a measure of the two first gravitational harmonics, the quadrupole and the octopole moment of the Sun: J
2=−(6.13±2.52)×10−7 if all observed data are taken into account, and respectively, J
2=−(6.84±3.75)×10−7 if only sunspot data are considered, and J
2=−(3.49±1.86)×10−7 in the case of helioseismic data alone. The value deduced from all available data for the octopole is: J
4=(2.8±2.1)×10−12. These values are compared to some others found in the literature.
Supplementary material to this paper is available in electronic form at http://dx.doi.org/10.1023/A:1005238718479 相似文献
12.
B. P. Kondratyev 《Solar System Research》2013,47(1):1-10
A two-component theoretical model of the physical libration of the Moon in longitude is constructed with account taken of the viscosity of the core. In the new version, a hydrodynamic problem of motion of a fluid filling a solid rotating shell is solved. It is found that surfaces of equal angular velocity are spherical, and a velocity field of the fluid core of the Moon is described by elementary functions. A distribution of the internal pressure in the core is found. An angular momentum exchange between the fluid core and solid mantle is described by a third-order differential equation with a right-hand side. The roots of a characteristic equation are studied and the stability of rotation is proved. A libration angle as a function of time is found using the derived solution of the differential equation. Limiting cases of infinitely large and infinitely small viscosity are considered and an effect of lag of a libration phase from a phase of action of an external moment of forces is ascertained. This makes it possible to estimate the viscosity and sizes of the lunar fluid core from data of observations. 相似文献
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M. V. Samokhin 《Earth, Moon, and Planets》1993,61(1):29-37
Using the well-known equation for the normal component of the current which exist near the tangential discontinuity in the plasma in the case of the frozen-in magnetic field, and supposing that the current closes in the ionosphere in the auroral oval in the region 1, one calculates and compares with the data of observations the dependence of the density of the field-aligned current at the level of the ionosphere on the local time. 相似文献
15.
Yoshio Kubo 《Celestial Mechanics and Dynamical Astronomy》2009,105(4):261-274
We calculate the so-called convective term, which shows up in the expression for the angular velocity of the elastic Earth,
within the Andoyer formalism. The term emerges due to the fact that the elasticity-caused perturbation depends not only on
the instantaneous orientation of the Earth but also on its instantaneous angular velocity. We demonstrate that this term makes
a considerable contribution into the overall angular velocity. At the same time the convective term turns out to be automatically
included into the correction to the nutation series due to the elasticity, if the series is defined by the perturbation of
the figure axis (and not of the rotational axis) in accordance with the current IAU resolution. Hence it is not necessary
to take the effect of the convective term into consideration in the perturbation of the elastic Earth as far as the nutation
is related to the motion of the figure axis. 相似文献
16.
Range of values of the Sun's mass quadrupole moment of coefficient J2 arising both from experimental and theoretical determinations enlarge across literature on two orders of magnitude, from
around 10-7 until to 10-5. The accurate knowledge of the Moon's physical librations, for which the Lunar Laser Ranging data reach an outstanding precision
level, prove to be appropriate to reduce the interval of J2 values by giving an upper bound of J2. A solar quadrupole moment as high as 1.1 10-5 given either from the upper bounds of the error bars of the observations, or from the Roche's theory, is not compatible with
the knowledge of the lunar librations accurately modeled and observed with the LLR experiment. The suitable values of J2 have to be smaller than 3.0 10-6.
As a consequence, this upper bound of 3.0 10-6 is accepted to study the impact of the Sun's quadrupole moment of mass on the dynamics of the Earth-Moon system. Such as
effect (with J2 = 5.5±1.3 × 10-6) has been already tested in 1983 by Campbell & Moffat using analytical approximate equations, and thus for the orbits of
Mercury, Venus, the Earth and Icarus. The approximate equations are no longer sufficient compared with present observational
data and exact equations are required. As if to compute the effect on the lunar librations, we have used our BJV relativistic
model of solar system integration including the spin-orbit coupled motion of the Moon. The model is solved by numerical integration.
The BJV model stems from general relativity by using the DSX formalism for purposes of celestial mechanics when it is about
to deal with a system of n extended, weakly self-gravitating, rotating and deformable bodies in mutual interactions.
The resulting effects on the orbital elements of the Earth have been computed and plotted over 160 and 1600 years. The impact
of the quadrupole moment of the Sun on the Earth's orbital motion is mainly characterized by variations of
,
, and
. As a consequence, the Sun's quadrupole moment of mass could play a sensible role over long time periods of integration of
solar system models.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
17.
Wu Lin-xiang 《Chinese Astronomy and Astrophysics》1992,16(4):427-433
By means of a simple relation between the velocity v of the fluid particle and the velocity vf of the photospheric footpoint of the magnetic field line vz and Bz being respectively the components of v and the magnetic field B normal to the photospheric surface, it is shown formally that through the phtospheric surface the transport of all the quantities attributed to the magnetic field, such as the magnetic flux, the magnetic energy and the helicity, is independent of vz, and vf is the only kinematical quantity on which the transport depends. In addition, in the neighborhood of the neutral line the velocity vl of the moving curve of constant Bz is found to be equal approximately to the component of v or vf in the direction of vl. Since vl can be measured or extimated, so can the components of v and vf near the neutral line. 相似文献
18.
L. E. Cram 《Solar physics》1976,48(1):3-19
When the K-corona is formed by the scattering of photospheric radiation from free electrons, the Fraunhofer lines are greatly broadened by the thermal motions of the hot electrons. This paper discusses the possibility of measuring the coronal electron temperature from the residual depressions in the K-coronal spectrum. If the ratio of the intensities at 4100 Å and 3900 Å can be measured to an accuracy of ±1%, the coronal temperature can be inferred to an accuracy of ±0.2 MK. The temperature of a coronal inhomogeneity may also be measured by this method, provided the position angle is known.Now at Fraunhofer Institute, Freiburg, Germany. 相似文献
19.
G. M. Petrov 《Astrophysics and Space Science》1991,177(1-2):269-270
The classical method of determination of the absolute azimuth (or Bessel's parameter n) can secure sufficiently precision for RA from observations of stars at high geographical latitudes during polar night only. 相似文献