共查询到19条相似文献,搜索用时 125 毫秒
1.
黄光力 《中国天文和天体物理学报》1993,(1)
本文在用MHD理论研究等离子体束流不稳定性时发现:在电子等离子体频率附近可以激发出宽频带电磁波,其时间尺度、方向性、相对带宽、偏振特性及谐波结构等理论预期,在典型的日冕参数下,和米波段太阳射电Ⅲ型爆发的观测结果基本吻合.这一机制还可避免经典的等离子体辐射理论中由Langmuir波转换成横电磁波的效率较低的主要困难. 相似文献
2.
为解释太阳运动IV型射电爆发的相干辐射机制提出一个理论模型.从耀斑中产生的高能电子,可以被扩展上升的太阳磁流管俘获.在磁流管顶部,这些高能电子的速度分布形成为类束流速度分布,激发束流等离子体的不稳定性,并且主要直接放大O模电磁波.不稳定性增长率敏锐地依赖了日冕等离子体参数,fpe/fce和射束温度Tb,这能定性解释在太阳运动IV型射电爆发中观测到的高亮温度和高偏振度,以及宽频谱的特性. 相似文献
3.
弱磁化相对论电子束注入等离子体时,由非共振波粒相互作用激发的束-等离子体不稳定性可以直接放大电磁波。计算结果表明:在偏离共振条件的区域,电磁波仍可在较宽的频率范围被放大,并在每个共振峰下形成平台结构。随着谐波数的增高,增长率峰值逐渐变小,峰宽也变窄。本还分析了电磁波的增长率随背景参数wpe/Qe及高能电子的入射方向和辐射方向的变化规律。在典型的日冕条件下,此类不稳定性所放大的电磁波的增长率大小、 相似文献
4.
弱磁化相对论电子束注入等离子体时,由非共振波粒相互作用激发的束-等离子体不稳定性可以直接放大电磁波,计算结果表明:在偏离共振条件的区域,电磁波仍可在较宽的频率范围被放大,并在每个共振峰下形成平台结构。随着谐波数的增高,增长率峰值逐渐变小,峰宽也变窄。本文还分析了电磁波的增长率随背景参数ω_(pe)/Ω_e及高能电子的入射方向和辐射方向的变化规律,在典型的日冕条件下,此类不稳定性所放大的电磁波的增长率大小、带宽、方向性、偏振及谐波等性质,可以用来解释太阳Ⅲ型射电爆发现象,本文的研究亦可用来解释其他天体等离子体辐射。 相似文献
5.
本文在文[3]的基础上,考虑背景电磁波色散方程的弱磁化修正,在1<ωpe/Ωe<10的范围内(主委适用于太阳高日冕、行星际空间及星系射电喷流等),计算了由束流不稳定性直接放大正常模和反常模的增长率。增长率随着频率、ωpe/Ωe、电磁波传播角以及非热电子入射角等参数的变化规律,和忽略磁场时的结果与文[3]大体相同,但是反常模的增长,则随着ωpe/Ωe的增大而受到明显的抑制,因而在本文参数范围内,束流不稳定性所放大的电磁波以正常模为主,可以解释太阳III型爆发和星系射电喷流的偏振性质。 相似文献
6.
为解释太阳运动Ⅳ型射电爆发的相干辐射机制提出一个理论模型.从耀斑中产生的高能电子,可以被扩展上升的太阳磁流管俘获.在磁流管顶部,这些高能电子的速度分布形成为类束流速度分布,激发柬流等离子体的不稳定性,并且主要直接放大O模电磁波.不稳定性增长率敏锐地依赖了日冕等离子体参数fpe/fce和射束温度Tb,这能定性解释在太阳运动Ⅳ型射电爆发中观测到的高亮温度和高偏振度,以及宽频谱的特性. 相似文献
7.
地球大气层会在大部分波段阻挡电磁波的通过。而那些允许电磁波透过的区域就称为电磁窗口。除了我们熟知的光学一近红外窗口,地球大气另一个电磁窗口就是射电窗口。射电望远镜就在这个波段接收天体的无线电波。 相似文献
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9.
利用国家天文台云南天文台“分米波(700—1500MHz)射电频谱仪”和“四波段太阳射电高时间分辨率同步观测系统”分别于2001年6月24日和1990年7月30日观测到了两个稀少事件,前者是一个小射电爆发,其上升相伴随有短周期(约29、40和100毫秒)的脉动,后者是一个射电大爆发,在2840MHz上产生了周期约30毫秒的射电脉动,还着重讨论其甚短周期(如29—40毫秒)的脉动现象,甚短周期脉动可能是归因于起源在日冕深处不稳定区域的哨声波束周期链对射电辐射的调制,或沉降电子束驱动的静电高混杂波,经由波-波非线性相互作用导致甚短周期的射电脉动。 相似文献
10.
本文介绍了日地空间环境和能量走廊,光学日冕和射电日冕,日冕瞬变和行星际瞬变。特别阐述了射电日冕瞬变的种类及其行星际效应。 相似文献
11.
K. F. Tapping 《Solar physics》1978,59(1):145-158
During the May 21, 1972, noise storm, flux density measurements were made, at a frequency of 140 MHz, of 14 pulsating bursts. These comprised trains of up to 20 pulses, having pulse repetition rates of up to 15 s–1.A model for the burst mechanism is described, based upon the hypothesis that the pulsations are generated by the modulation of a thermally damped plasma wave source by periodic trains of whistler packets originating in unstable regions deep in the corona and passing through the meter wavelength source. These whistler packets further enhance the emissions by increasing the efficiency of the conversion of the plasma waves into electromagnetic waves. 相似文献
12.
Fiber – or intermediate drift – bursts are a continuum fine structure in some complex solar radio events. We present the analysis of such bursts in the X17 flare on 28 Oct. 2003. Based on the whistler wave model of fiber bursts we derive the 3D magnetic field structures that carry the radio sources in different stages of the event and obtain insight into the energy release evolution in the main flare phase, the related paths of nonthermal particle propagation in the corona, and the involved magnetic field structures. Additionally, we test the whistler wave model of fiber bursts for the meter and the decimeter wave range. Radio spectral data (Astrophysikalisches Institut Potsdam, Astronomical Observatory Ond?ejov) show a continuum with fibers for ≈?6 min during the main flare phase. Radio imaging data (Nançay Radio Heliograph) yield source centroid positions of the fibers at three frequencies in the spectrometer band. We compare the radio positions with the potential coronal magnetic field extrapolated from SOHO/MDI data. Given the detected source site configuration and evolution, and the change of the fiber burst frequency range with time, we can also extract those coronal flux tubes where the high-frequency fiber bursts are situated even without decimeter imaging data. To this aim we use a kinetic simulation of whistler wave growth in sample flux tubes modeled by selected potential field lines and a barometric density model. The whistler wave model of fiber bursts accurately explains the observations on 28 Oct. 2003. A laterally extended system of low coronal loops is found to guide the whistler waves. It connects several neighboring active regions including the flaring AR 10486. For varying source sites the fiber bursts are emitted at the fundamental mode of the plasma frequency over the whole range (1200?–?300 MHz). The present event can be understood without assuming two different generation mechanisms for meter and decimeter wave fiber bursts. It gives new insight into particle acceleration and propagation in the low flare and post-CME corona. 相似文献
13.
Liu Tong 《Chinese Astronomy and Astrophysics》2019,43(2):143-177
Black hole hyperaccretion model is one of the potential candidates for the central engine of gamma-ray bursts. Combined with the complicated explosion phenomena including gamma-ray bursts, gravitational waves, and their electromagnetic counterparts, the results of a series of theoretical studies on this model are briefly reviewed in this paper. At the same time, as the research tools for the subsequent studies on gamma-ray bursts, some important conclusions and formulas are presented. 相似文献
14.
An analytically derived distribution function of reflected and accelerated electrons at a nearly perpendicular shock is presented. Then this distribution in a simplified form is introduced into a 1.5-D relativistic electromagnetic particle-in-cell (PIC) model and a generation of waves is studied. Numerical modeling shows not only a generation of Langmuir and high-frequency electromagnetic waves as expected, but also an efficient generation of whistler waves. Their role in emission processes of type II solar radio bursts is discussed. 相似文献
15.
Chian Abraham C.-L. Abalde JOSÉ R. Alves M. Virginia Lopes Sergio R. 《Solar physics》1997,173(1):199-202
It is shown that narrow-band radio bursts of right- and left-hand circular polarizations from the Sun and flare stars can be produced via nonlinear conversion of Langmuir waves into high-frequency electromagnetic electron cyclotron waves near the plasma frequency by coupling to low-frequency electromagnetic cyclotron waves such as Alfvén-ion cyclotron or magnetosonic-whistler waves. 相似文献
16.
Low frequency turbulence in the solar corona and fundamental radiation of type III solar radio burst
T. Takakura 《Solar physics》1979,62(2):375-382
On the basis of the previous numerical simulations, a new mechanism for the emission of the fundamental radio waves of solar radio type III bursts is presented. This hypothesis is to attribute the fundamental radio emission to the coalescence of the plasma waves with the low frequency turbulence, whistler or ion acoustic waves, pre-existing on the way of the electron beam which excite the plasma waves.It is estimated that ion acoustic waves could be occasionally unstable in the solar corona due to that drifting bi-Maxwellian distribution of electrons as observed in the solar wind, which is probably caused by collision-less heat conduction.It is also suggested that the reduced damping of the ion acoustic waves in such a distorted electron distribution in the corona may decrease the threshold electric current to cause the anomalous resistivity to be the onset of the solar flares. 相似文献
17.
It is shown that the existing theory of type II bursts, based on a model of the emission from the shock wave front, has difficulties when compared with observational data. We suggests a new model for type II bursts. According to this model, in an expanding magnetic loop a cluster of energetic electrons acts to excite the cyclotron instability of plasma waves. The waves are excited on surfaces where the cyclotron resonance condition is satisfied, and are then transformed into electromagnetic emission by merging. Our proposed model may be useful to explain some observational facts, such as the narrow-band character of the emission and the space-time relationship between the harmonics. Some tests to check the validity are proposed. 相似文献
18.
A model for the source of microwave bursts from the Crab pulsar in the form of a current sheet with a transversemagnetic field has been investigated. The emission generation mechanism is based on the excitation of plasma waves at the double plasma resonance frequencies in a nonrelativistic nonequilibrium plasma followed by their scattering into electromagnetic waves that escape from the current sheet into the neutron star magnetosphere. The basic parameters of the source explaining the observed characteristics of quasi-harmonic bursts in the interpulses of radio emission from this pulsar have been established. 相似文献
19.
This paper considers, in a linear approximation, the instability of a low-density electron beam propagating along the magnetic field of the solar corona, with respect to the excitation of electromagnetic (transverse) waves at cyclotron harmonics. It is shown that the extraordinary mode is excited at harmonics, beginning with the second and higher. Results of calculations check well with observed spectra of groups of solar spike radio bursts in the decimetric wavelength range. 相似文献