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1.
为了综合反映地球表面行星尺度磁异常的展布面积、磁场极值以及磁场分布特征等多种因素及其与磁能的关系,本文用穿过各异常区的“无符号磁通量”为特征参数来表征磁异常区强度.用第八代国际参考地磁场模型(IGRF),分析了1900年到2000年全球最大的5个磁异常区的长期变化,结果表明,在一百年中,南大西洋(SAT)、大洋洲(AUS)和非洲(AF)3个异常区的磁通量均增加了200MWb以上,欧亚异常(EA)磁通量增加幅度稍小(157MWb),上述4个异常区磁通量增幅为30%-60%,而北美异常(NAM)的磁通量则减小了50MWb.各异常区面积虽有变化,但最大变化仅为%左右.对磁异常区的西向漂移研究表明,地球表面和核幔界面的西漂明显存在差异:地表磁场有持续而稳定的西向漂移,全球平均西漂速度为0.2°/a;但核幔界面磁场的西向漂移速度要小得多,最大不超过0.1°/a.形成这种差异的原因可能是组成地磁场的不同球谐分量有不同的漂移速度;地表磁场的西漂主要决定于占优势的低阶分量,而核幔界面的西漂则受到高阶分量的重大影响.本文指出,在把地表西漂值用作地核磁流体运动速度的典型值时必须十分谨慎. 相似文献
2.
Spatiotemporal variations of the nondipole (ND) magnetic field over the Chinese mainland and neighboring regions from 10000 BC to 1990 AD were analyzed using the latest global geomagnetic models CALS10K.1b, CALS3K.4, and IGRF11. Moreover, for field sources, we investigated 2 n (n = 2–10) pole ND fields and their energies. The results suggest that the study period can be divided into three. The intensity of the ND field has been mainly positive since 10000 BC and lasted almost 7500 years, then gradually decreased to negative in 2500 BC to 1500 AD, and finally sharply increased to positive. The anomaly areas of the ND field in East Asia took shape for n = 3, when the anomaly areas in East Asia were shaped into closed circles in the mainland. This suggests that the first three harmonic degrees account for most of the ND field. The energy of the ND field rapidly attenuates at the core–mantle boundary and is stable at the surface. 相似文献
3.
The IGRF-models for the main field and the secular variation (IGRF 1980 and IGRF-SV 1980–1985) have been compared with geomagnetic ground based data for epoch 1980.5 in the GDR, and also with the secular variation at 34 European observatories. The results for the main magnetic field were much better than for IGRF 1965. With a level-error of ~ 45 nT, the IGRF 1980 included ~ 75% of the magnetic crust field. The structure of the IGRF-field is similar to that of other regional reference fields.The IGRF-SV for 1965, 1975 and 1980–1985 have been compared with analytical SV-models, based on low-degree polynomial approximations. It is shown that the main features of SV in Europe are represented correctly. The mean differences between observatory data and IGRF-SV 1980–1985 are 1.5′/a for declination, and 7 nT/a for total intensity. 相似文献
4.
NOC model of the earth's main magnetic field 总被引:1,自引:0,他引:1
徐文耀 《中国科学D辑(英文版)》2003,46(9):882-894
The international geomagnetic reference field (IGRF) is a standard model for describing the spatial structure and temporal variation of the earth抯 main magnetic field[1—3]. The first IGRF model, designated IGRF 1965, was adopted by IAGA in 1968[4]. In l… 相似文献
5.
本文用中国地磁场复测点和地磁台站资料,建立了2000年代中国参考地磁场长期变化模型CGRF-SV2000.模型显示,中国地区地磁场变化比较平缓,X、Y、Z、H、D、I、F七个地磁要素的“无符号平均年变率”分别为122 nT/a、82 nT/a、438 nT/a、118 nT/a、096(′)/a、299(′)/a、224 nT/a,比国际参考地磁场IGRF给出的全球年变率约小1/3到1/2.各地磁要素的变化显示,地磁北极正在向中国移近,或者说,中国正在向高地磁纬度方向移动,平均移动速度约为3(′)/a.磁偏角变化还显示,中国地区东西部偏角差异继续扩大.作为检验和对比研究,本文利用第8代国际参考地磁场(IGRF)模型,分析了全球地磁场长期变化的时空特征,讨论了全球长期变模型IGRF_SV与中国长期变模型CGRF_SV的异同点.对比分析表明,中国地区地磁场的长期变化与全球长期变化总趋势基本符合,但是,CGRF_SV也表现出一些特有的局部异常特征. 相似文献
6.
为了研究中国境内各阶非偶极子(ND)磁场,通过最新的地磁场模型CALS10K.1b计算了10000 BC—AD 1990年ND磁场在中国境内的时空及能量变化;22,23和24极子磁场零值线主要呈现出从我国中北部向东南部移动,从北部向东部移动,以及从东南部向西北部移动的趋势;除了26极子磁场,其余ND磁场在1500年以后均有“翘尾”现象,其所占主磁场的比值在10000 BC—AD 1500年呈震荡变化,从1500年开始快速上升;除了22极子磁场,其它各阶ND磁场能量随时间变化的趋势基本一致. 在5650 BC年左右,各阶ND磁场能量值均出现高值并随阶数的增大而衰减,反映了在该时间点通过地核发电机产生的磁场能量随径向距离而近似线性衰减,地磁场能量主要源自地球液态外核. 将CALS10K.1b模型结果与IGRF11模型对比后,得出CALS10K.1b模型所计算的ND磁场及能量值较为可靠,而两者差异主要源于数据和建模方法的不同. 相似文献
7.
The International Geomagnetic Reference Field models (IGRF) for 1900–2000 are used to calculate the geomagnetic field distribution
in the Earth’ interior from the ground surface to the core-mantle boundary (CMB) under the assumption of insulated mantle.
Four reversed polarity patches, as one of the most important features of the CMB field, are revealed. Two patches with +Z
polarity (downward) at the southern African and the southern American regions stand out against the background of ™Z polarity
(upward) in the southern hemisphere, and two patches of ™Z polarity at the North Polar and the northern Pacific regions stand
out against the +Z background in the northern hemisphere. During the 1900–2000 period the southern African (SAF) patch has
quickly drifted westward at a speed of 0.20–.3° /a; meanwhile its area has expanded 5 times, and the magnetic flux crossing
the area has intensified 30 times. On the other hand, other three patches show little if any change during this 100-year period.
Extending upward, each of the reversed polarity patches at the CMB forms a chimney-shaped “reversed polarity column” in the
mantle with the bottom at the CMB. The height of the SAF column has grown rapidly from 200km in 1900 to 900km in 2000. If
the column grows steadily at the same rate in the future, its top will reach to the ground surface in 600–700 years. And then
a reversed polarity patch will be observed at the Earth’s surface, which will be an indicator of the beginning of a magnetic
field reversal. On the basis of this study, one can describe the process of a geomagnetic polarity reversal, the polarity
reversal may be observed firstly in one or several local regions; then the areas of these regions expand, and at the same
time, other new reversed polarity regions may appear. Thus several poles may exist during a polarity reversal. 相似文献
8.
Loren Shure Kathy Whaler David Gubbins Bruce Hobbs 《Physics of the Earth and Planetary Interiors》1983,32(2):114-131
Slow changes in the magnetic field are believed to originate in the core of the Earth. Interpretation of these changes requires knowledge both of the vertical component of the field and of its rate of change at the core-mantle boundary (CMB). While various spherical harmonic models show some agreement for the field at the CMB, those for secular variation (SV) do not. SV models depend heavily on annual means at relatively few and poorly distributed magnetic observatories. In this paper, the SV at the CMB is modelled by fitting 15-year differences in the annual means of the X, Y and Z components (from 1959 to 1974). The model is made unique by imposing the constraint that be a minimum, using the method of Shure et al. (1982). If SV is attributed to motions of core fluid, then this model will yield, in some sense, the slowest core motions. The null space is determined by the distribution of observations, and therefore, to be consistent, only those observatories have been retained which recorded almost continuously throughout the interval 1959–1974.The method allows misfit between the model and the observations. The best value for the misfit can be derived from estimates of errors in the data, or alternatively, because larger misfit leads to smoother models (i.e., smaller ), the best value can be estimated subjectively from the final appearance of the model. Both procedures have their counterparts in the conventional spherical harmonic expansion approach, when smoothing is achieved by lowering the truncation level. The new proposal made in this paper is to use objective criteria for determining the misfit, based on the assumption that diffusion is negligible, in which event all integrals will vanish when Si is a region on the CMB bounded by a contour of zero vertical component of field. For the 1965 definitive model which is adopted here, and for most other contemporary models, there are six such areas, giving five independent integrals (the integrals over the six regions must sum to zero if ? · B = 0). Tabulating these integrals for various choices of the misfit gives minimum values near 2 nT y?1. It is impossible to achieve this good a fit to the data using a reasonable model derived by truncating the spherical harmonic expansion. The value 2 nT y?1 corresponds to errors of ~ 20 nT in individual annual means, which is rather larger than expected from the scatter in the data. 相似文献
9.
The inclination (I), declination (D) and total intensity (F) of the geomagnetic field were measured on Mount Etna in 1989-1991 at a dozen sites previously sampled for archeomagnetic studies. The purpose of the work was to determine the variations of these parameters at 30 cm above ground level, and how the distortion from the main field can affect the archeomagnetic record of volcanic rocks. Ten measurements were usually performed at each site with a three-component flux-gate magnetometer, whose estimated precision is ±0.2° on direction and ±50 nT on intensity. This was considered sufficient on volcanic areas with highly magnetized rocks and where the geomagnetic gradient may be in excess of 1000 nT/m. Results averaged for each site generally show small variations in intensity (±3% of the total field) and direction (±1.5°). The averaged values of the 12 sites (I=52.6°, D=0.3°, F=44010 nT) are very close to those measured in sedimentary terrain away from the volcano (I=52.9°, D=0.35°, F=44110 nT), themselves consistent with the interpolated IGRF in eastern Sicily. The largest deviations of the geomagnetic direction have been observed on four sites, three of them located on the South flank between 1900 and 700 m elevation. It is suggested that these anomalies are mainly related to dyke swarms which are common within the South Rift Zone of Mount Etna. Our findings show that reliable archeomagnetic results can be obtained from volcanic rocks, provided that lavas of the same eruption are sampled on several sites distributed over the largest possible area. 相似文献
10.
根据2000年中国地区156个地磁台站和复测点的实测数据以及国境外的6个地磁台站实测数据,加上国境外36个IGRF点,分别利用Taylor多项式模型和曲面Spline模型,建立了中国地区地磁场总强度(F)、磁偏角(D)和磁倾角(I)的地磁模型,通过对两种模型中各分量的φ(纬度)和λ(经度)进行微分,计算得到F、D、I的水平梯度值,并绘制相应分量沿南北方向和东西方向的水平梯度图,将其与2000年IGRF10的水平梯度图作比较,最后对水平梯度的空间分布以及三种梯度图进行了分析比较.结果表明:F和I的水平梯度主要随纬度变化,F随纬度增加,变幅约为7.0~6.0 nT/min,在中部地区(25°~35°N,90°~120°E)强度达到最大;I随纬度的增加,变幅约为2'/min~1'/min;D的水平梯度随纬度和经度而变化,随着经度和纬度的增加,变幅分别约为0.4'/min~-0.3'/min和-0.1'/min~-0.4'/min. 相似文献
11.
IGRF(国际地磁参考场)是有关地球 主磁场与长期变化的模型,IGRF的误差主要来源于:忽略外源场、球谐级数的截断、台站分 布的不均匀、测量、忽略地壳磁异常场等. 分析我国大陆地区IGRF的误差,有利于我国地磁 研究 人员在工作中合理地应用IGRF资料. 如果不计磁异常与环境干扰都比较大的北京台,29个基 准台的IGRF的误差(均方根差)为146.9nT. 相似文献
12.
第11代国际地磁参考场(IGRF-11)是国际地磁学与高空物理学联合会(IAGA)于2009年12月提出的最新与比较准确的IGRF.根据IGRF-11模型,计算了2005-2010年中国地区地磁长期变化(SVC).IGRF-11所描述的2005-2010年中国地区地磁长期变化与实际观测的地磁长期变化(SVO)是基本一致的,但亦有明显差异.分析比较了在中国地区34个台站上的SVO与SVC之间的差异,并得到了它们之间的差值及其均方误差σ,对于地磁偏角和倾角,σ分别为0.35′/a与0.53′/a;对于地磁总强度、水平分量、北向分量、东向分量与垂直分量,σ分别为5.12nT/a,8.91nT/a,8.89nT/a,3.27nT/a与3.59nT/a.引起IGRF-11所描述的2005-2010年中国地区地磁长期变化的误差原因是:中国地区的区域性与局部性的磁异常、IGRF忽略了外源场与IGRF模型的截断阶数、全球台站与测点的分布不均匀、地磁观测误差等因素.由于中国地磁模型(CGM)优于IGRF模型,并能比较准确地描述中国地区地磁场及其长期变化,故在实际应用中应选用CGM. 相似文献
13.
根据1998~2000年完成的118个地磁测点 和39个地磁台的三分量绝对测量资料以及IGRF2000,计算2000年中国地磁场冠谐模型(截断 阶数为8),以及2000~2005年中国地磁长期变化冠谐模型(截断阶数为6). 球冠极位于36 °N,104°E,球冠半角为30°. 中国地磁场冠谐模型能更好地表示我国地磁场的时空变化 ,地磁场模型的均方偏差为:104.4 nT(X分量),103.3 nT(Y分量),123.9 nT(Z分量). 依据地磁场及其长期变化的冠谐模型,分别绘制2000年中国地磁图(F,X,Y,Z)和异常磁场图(ΔF,ΔX,ΔY,ΔZ),以及2000~2005年地磁长期变化图(F,X,Y,Z). 指出改善地磁场模型边界效应 的途径,并对如何布设地磁复测点提出了建议. 相似文献
14.
为了研究2 0世纪中国地区主磁场变化, 首先使用最新的全球模型IGRF11, CALS3K. 4 (3K. 4) 和GUFM1进行计算, 并分析了1900—1990年的主磁场年变率均值的变化; 然后基于1960—2000年以10年为间隔的实测数据, 结合全球模型CM4与区域模型泰勒(Taylor)多项式(TY)模型分析了中国地区主磁场的年变率分布及年变率均值, 并与上述几种全球模型进行了比较. 结果显示: 20世纪利用IGRF11, GALS3K.4和GUFM1模型得到的主磁场的年变率均值均很接近. 它们所绘制的1960—2000年中国地区的主磁场年变率分布类似. 其原因主要是由于它们的建模原理相同且截断阶数接近所致. 基于实测点绘制的年变率分布与全球模型基本一致, X分量的年变率逐年减少, Y、 Z、 F分量的年变率均呈现先减小后增大的趋势.但两者也存在一定差异, 主要原因是由于更高密度的实测点及使用区域模型所致. 结果还显示了基于实测值绘制的年变率均值变化与CM4较为接近. 作者认为 CM4模型可以较好地反映中国地区主磁场的变化. 相似文献
15.
L. F. Chernogor 《Geomagnetism and Aeronomy》2014,54(5):613-624
An analysis was conducted of time variations in geomagnetic field components on the day of the Chelyabinsk meteorite event (February 15, 2013) and on control days (February 12 and 16, 2013). The analysis uses the data collected by magnetic observatories in Novosibirsk, Almaty, Kyiv, and Lviv. The distance R from the explosion site to the observatories varies in the range 1200–2700 km. The flyby and explosion of the Chelyabinsk cosmic body is found to have been accompanied by variations mainly in the horizontal component of the geomagnetic field. The variations are quasi-periodic with a period of 30–40 min, an amplitude of 0.5–2 nT for R ≈ 2700?1200 km, respectively, and a duration of 2–3 h. The horizontal velocity of the geomagnetic field disturbances is close to 260–370 m/s. A theoretical model of wave disturbances is proposed. According to the model, wave disturbances in the geomagnetic field are caused (a) by the motion of the gravity wave generated in the atmosphere by the falling space body and (b) by traveling ionospheric disturbances, which modulate the ionospheric current at dynamo altitudes. The calculated amplitudes of the wave disturbances are 0.6–1.8 nT for R ≈ 2700?1200 km, respectively. The estimates are in good agreement with the observational data. Disturbances in the geomagnetic field level (geomagnetic pulsations) in the period range 1–1000 s are negligible (less than 1 nT). 相似文献
16.
中国部分地磁台站年均值与IGRF模型一致性分析 总被引:1,自引:0,他引:1
利用中国部分地磁台站1990~2003年的年均值资料,研究了台站年均值与IGRF模型计算值的一致程度,结果表明:①我国地磁台站的长期变速度与IGRF模型的长期变速度有差异:总体来讲,我国台站磁偏角D和垂直强度Z的长期变速度低于IGRF模型的相应速度;水平强度H的长期变速度在1990~1995年间高于IGRF模型的相应速度,在1995~2000年间低于IGRF模型的相应速度;②台站年均值与IGRF模型值的差值曲线中,H和Z有明显的起伏,反映了地磁场长期变的非线性;③虽然有上述长期变上的差异,但对于同一个台站,各地磁要素年均值与IGRF模型值的差值的标准偏差均低于IGRF模型的误差水平,说明IGRF模型与台站年均值的一致性比较好;④对于同一地磁要素,不同台站的年均值与IGRF模型值的差值的平均值相差较大,反映出台站所在位置地壳磁异常的巨大差异。通过总结上述工作,文中还讨论了地磁台站保持长期可靠运行的重要性以及地磁台网历史观测资料抢救的紧迫性。 相似文献
17.
B. B. Gvozdevskii A. A. Abunin P. G. Kobelev R. T. Gushchina A. V. Belov E. A. Eroshenko V. G. Yanke 《Geomagnetism and Aeronomy》2016,56(4):381-392
Vertical geomagnetic cutoff rigidities are obtained for the stations of the global network of neutron monitors via trajectory calculations for each year of the period from 1950 to 2020. Geomagnetic cutoff rigidities are found from the model of the Earth’s main field International Geomagnetic Reference Field (IGRF) for 1950–2015, and the forecast until 2020 is provided. In addition, the geomagnetic cutoff rigidities for the same period are obtained by Tsyganenko model T89 (Tsyganenko, 1989) with the average annual values of the Kp-index. In each case, the penumbra is taken into account in the approximation of the flat and power spectra of variations of cosmic rays. The calculation results show an overall decrease in geomagnetic cutoff rigidities, which is associated with the overall decrease and restructuring of the geomagnetic field during the reporting period, at almost all points. 相似文献
18.
L. V. Tverskaya N. N. Veden’kin E. A. Ginzburg T. A. Ivanova N. N. Pavlov P. M. Svidskii 《Geomagnetism and Aeronomy》2006,46(2):146-150
The radiation belt dynamics during the extreme solar events in November 2004 and January 2005 is studied based on the measurements of relativistic electrons (with energies of 0.8–8 MeV) on the Express-A2 geostationary satellite and Meteor-3M polar satellite. New radiation belts of relativistic electrons in the space (L ~ 3) between the stationary outer and inner belts were formed as a result of either superstorm (|Dst|max = 373 and 289 nT). The position of the maximums of these belts (L max = 2.9 and 3.1) coincides with the known dependence of L max on the magnetic storm Dst variation amplitude: |Dst|max = 2.75 × 104/L max 4 . In November–December the new belt very slowly (ΔL ~ 0.1 per month) shifted toward the Earth. During the series of moderate (~100 nT) magnetic storms that developed as a result of the extreme solar events in January 2005, the belt in the space shifted toward deeper L shells (L ~ 2.5). The moderate January storms produced new belts with L max ≥ 4. 相似文献
19.
Precipitation variation in the northeastern Tibetan Plateau recorded by the tree rings since 850 AD and its relevance to the Northern Hemisphere temperature 总被引:17,自引:2,他引:17
John K. Kutzbach 《中国科学D辑(英文版)》2006,49(4):408-420
With their high resolution and reliability, tree rings play a very important role in global climate change study. The long tree-ring chronology is considered as one of the most important information sources to study the climatic change in the past several thousands years. In recent years, the tree-ring researches in China have made great progress, and the temperature and precipita- tion in some areas were reconstructed[1-20] which on- tributed to the global change studies in China. Due to the… 相似文献
20.
利用Bloxham & Jackson 地磁场模型和国际参考地磁场模型(IGRF),研究了1690~2000年地磁总能量及其北向、东向和垂直向分量的能量以及非偶极子磁场的能量在地球内部的分布及长期变化.结果表明,地表和地核以外地磁场总能量及其北向和垂直向的能量是持续衰减的,垂直向的磁场能量占总能量的64%以上,对总能量的贡献起主要作用;东向分量的能量随时间的变化以增加为主.地磁场的能量变化率存在56年的周期,主要是由偶极子磁场产生的.地表以外的非偶极子磁能从减小到增大转折出现在1770年,比地核以外滞后40年.地球内部磁能随时间的变化显示,偶极子磁能逐渐减小,非偶极子磁能增加,越靠近核幔边界增加越快;偶极子和非偶极子磁能的变化量相等的分界面在距地心3780km处.从核幔边界到地表,磁能变化的衰减非偶极子比偶极子快,表明偶极子磁场比非偶极子磁场有更深的场源. 相似文献