共查询到20条相似文献,搜索用时 46 毫秒
1.
Tian-Xi Zhang Jing-Xiu Wang Chi-Jie Xiao National Astronomical Observatories Chinese Academy of Sciences Beijing Center for Space Plasma Aeronomic Research The University of Alabama in Huntsville Huntsville AL USA 《中国天文和天体物理学报》2005,(3)
Resonant heating of H, O+5, and Mg+9 by parallel propagating ion cyclotron Alfven waves in solar coronal holes at a heliocentric distance is studied using the heating rate derived from the quasilinear theory. It is shown that the particle-AlfVen-wave interaction is a significant microscopic process. The temperatures of the ions are rapidly increased up to the observed order in only microseconds, which implies that simply inserting the quasilinear heating rate into the fluid/MHD energy equation to calculate the radial dependence of ion temperatures may cause errors as the time scales do not match. Different species ions are heated by Alfven waves with a power law spectrum in approximately a mass order. To heat O+5 over Mg+9 as measured by the Ultraviolet Coronagraph Spectrometer (UVCS) in the solar coronal hole at a region ≥1.9.R, the energy density of Alfven waves with a frequency close to the O+5-cyclotron frequency must be at least double of that at the Mg+9-cyclotron frequency. With an appropriate wa 相似文献
2.
Remote-sensing measurements indicate that heavy ions in the corona undergo an anisotropic and mass-charge dependent energization.A popular explanation to this phenomenon is the damping of the Alfven/ion cyclotron waves.In this paper,we propose that the ion beam instability can be an important source of the Alfven/ion cyclotron waves, and we study the excitation of the ion beam instability in the corona at the heliocentric distance~3R⊙ and the corresponding energy transfer process ther... 相似文献
3.
Quan-Ming Lu Shui Wang School of Earth Space Sciences University of Science Technology of China Hefei 《中国天文和天体物理学报》2005,5(2):184-192
We carried out one-dimensional hybrid simulations of resonant scattering of protons and He^2 ions by ion cyclotron waves in an initially homogeneous, collisionless and magnetized plasma. The initial ion cyclotron waves have a power spectrum and propagate both outward and inward. Due to the resonant interaction with the protons and He^2 ions, the wave power will be depleted in the resonance region. Both the protons and He^2 ions can be resonantly heated in the direction perpendicular to the ambient magnetic field and leading to anisotropic velocity distributions, with the anisotropy higher for the He^2 ions than for the protons. At the same time, the anisotropies of the protons and He^2 ions are inversely correlated with the plasma β‖p=8πnpkBT‖p/B0^2, consistent with the prediction of the quasilinear theory (QLT). 相似文献
4.
Chang Sun Lei Yang Qiu-Huan Li Cun-Li Dai Jian-Ping Li Zheng-Wei Cheng De-Jin Wu 《天文和天体物理学研究(英文版)》2023,(9):343-352
Alfvén ion cyclotron waves(ACWs) and kinetic Alfvén waves(KAWs) are found to exist at <0.3 au observed by Parker Solar Probe in Alfvénic slow solar winds. To examine the statistical properties of the background parameters for ACWs and KAWs and related wave disturbances, both wave events observed by Parker Solar Probe are selected and analyzed. The results show that there are obvious differences in the background and disturbance parameters between ACWs and KAWs. ACW events have a relatively hi... 相似文献
5.
周国成 《紫金山天文台台刊》1994,13(3):199-203
In this paper, the new models of the generation mechanism of the observed solar corona type II radio burst and the interplanetary type III radio emission are presented. The synchrotron-maser theory of type II solar is proposed. The electrostatic waves with frequencies close to twice the plasma frequency can be excited,and can naturclly change into electromagnetic waves when they propagate in a plasma in which the plasma density decreases spatially.Emission of electromagnetic waves with frequencies close to the plasma frequency and/or its second harmonic have been frequently observed in solar corona and interplanetary space. In the pass a number of theories have been suggested to explain the generation mechanism of the observed radiation. 相似文献
6.
Heating and acceleration of electrons in solar impulsive hard X-ray (HXR) flares are studied according to the two-stage acceleration model developed by Zhang for solar 3He-rich events. It is shown that electrostatic H-cyclotron waves can be excited at a parallel phase velocity less than about the electron thermal velocity and thus can significantly heat the electrons (up to 40 MK) through Landau resonance. The preheated electrons with velocities above a threshold are further accelerated to high energies in the flare-acceleration process. The flare-produced electron spectrum is obtained and shown to be thermal at low energies and power law at high energies. In the non-thermal energy range, the spectrum can be double power law if the spectral power index is energy dependent or related. The electron energy spectrum obtained by this study agrees quantitatively with the result derived from the Reuven Ramaty High Energy Solar Spectroscopic Imager (RHESSI) HXR observations in the flare of 2002 July 23. The total flux and energy flux of electrons accelerated in the solar flare also agree with the measurements. 相似文献
7.
Xiao-Yan Xu Peng-Fei Chen Cheng Fang Department of Astronomy Nanjing University Nanjing 《中国天文和天体物理学报》2005,5(6):636-644
Observations indicate that solar coronal mass ejections (CMEs) are closely associated with reconnection-favored flux emergence, which was explained in the emerging flux trigger mechanism for CMEs by Chen & Shibata based on numerical simulations. We present a parametric survey of the triggering agent: its polarity orientation, position, and the amount of the unsigned flux. The results suggest that whether a CME can be triggered depends on both the amount and location of the emerging flux, in addition to its polarity orientation. A diagram is presented to show the eruption and non-eruption regimes in the parameter space. The work is aimed at providing useful information for the space weather forecast. 相似文献
8.
This paper presents the generation of kinetic Alfv én wave(KAW) coherent structures of magnetic filaments applicable to solar wind at 1 AU, when the background plasma density is modified by parallel ponderomotive force and Joule heating. The inhomogeneity in the magnetic field, which was included as a perturbation in the transverse direction of the magnetic field, takes energy from the main pump KAWs and generates the filamentary structures. When the intensity is high enough, the filaments are broken down and the energy initially confined to low wavenumbers is redistributed to higher wavenumbers, leading to cascades of energy at small scales less than the ion acoustic gyroradius or comparable to electron gyroradius.The magnetic field spectral profile is generated from the numerical simulation results, and its dependence on different directions of the wavevector and initial conditions of the simulation representing the transverse magnetic field inhomogeneity is studied. The relevance of these results with other spacecraft observations and measurements is also pointed out. 相似文献
9.
Recent observations have found that chromospheric spicules behave like Alfv′enic fluctuations.Low-frequency Alfv′en waves are predicted to partially reflect in the transition region that has a gradient in the Alfv′en speed,thereby producing inward Alfv′en waves,which may interact nonlinearly with outward Alfv′en waves to generate Alfv′enic turbulence.However,the signature of Alfv′enic turbulence in the chromosphere has not yet been quantitatively analyzed with observations.Here we analyze some characteristics related to Alfv′enic turbulence with the observations from Hinode/SOT.We decompose the height-time diagram of the transverse oscillations to separate the outward and inward propagating Alfv′enic-like signals.The counterpropagating waves are found to have similar amplitude,period and phase speed,suggesting a state having an approximate balance in bi-directional energy fluxes.Counterpropagation of intensity oscillation with lower propagation speed is also presented,probably indicating the presence of slow mode waves.Moreover,we attempt to estimate the Els¨asser spectra of the chromospheric turbulence for the first time.The relative fluctuations in the magnetic field may be measured as the local slope of wave-like shapes in spicules.The resulting low-frequency Els¨asser power spectra look similar to each other without showing a dominant population,which confirms these counterpropagating low-frequency Alfv′enic waves are in a state of balanced flux.These observational results are believed to help us better understand the nature of chromospheric turbulence as well as chromospheric heating. 相似文献
10.
《天文和天体物理学研究(英文版)》2016,(6)
We study intensity disturbances above a solar polar coronal hole that can be seen in the AIA 171 A?and 193 passbands,aiming to provide more insights into their physical nature.The damping and power spectra of the intensity disturbances with frequencies from 0.07 m Hz to 10.5 m Hz are investigated.The damping of the intensity disturbances tends to be stronger at lower frequencies,and their damping behavior below 980′′(for comparison,the limb is at 945′′) is different from what happens above.No significant difference is found between the damping of the intensity disturbances in the AIA 171 and that in the AIA193 A?.The indices of the power spectra of the intensity disturbances are found to be slightly smaller in the AIA 171 than in the AIA 193 A?,but the difference is within one standard deviation.An additional enhanced component is present in the power spectra in a period range of 8–40 min at lower heights.The power spectra of a spicule is highly correlated with its associated intensity disturbance,which suggests that the power spectra of the intensity disturbances might be a mixture of spicules and wave activities.We suggest that each intensity disturbance in the polar coronal hole is possibly a series of independent slow magnetoacoustic waves triggered by spicular activities. 相似文献
11.
张家泰 《紫金山天文台台刊》1994,(3)
In this presentation,an overview of the intense laser plasma interaction via computer simulation is presented. One and a half-dimensional and two-dimensional relativistic (or non-relativistic) electromagnetic (or electrostatic) cloud-in-cell plasma simulation series code are developed. The main investigated results on stimulated Raman scattering, stimulated Brillouin scattering, resonance absorption, parametric decay instability and two-plasmon decay arc briefly discussed in both simulations and experiments. 相似文献
12.
《天文和天体物理学研究(英文版)》2021,(10)
In-situ observations from the FREJA magnetospheric research satellite and the Fast Auroral SnapshoT satellite have shown that plasma waves are frequently observed in the auroral plasma,which are believed to be fundamentally important in wave energy dissipation and particle energization.However,the effects of a displacement current on these waves have not been examined.Based on the two-fluid theory,we investigate the dispersion relation and polarization properties of fast,Alfven,and slow modes in the presence of a displacement current,and the effects of the displacement current on these waves are also considered.The results show that the wave frequency,polarization,magnetic helicity and other properties for the fast and Alfven modes are highly sensitive to the normalized Alfven velocity v_A/c,plasma betaβ,and propagation angle θ,while for the slow mode the dependence is minor.In particular,for both fast and Alfven modes,the magnetic helicity is obviously different with and without the displacement current,especially for the Alfven mode with the helicity reversals from right-handed to left-handed when v_A/c increases from 0 to 0.3.The charge-neutral condition of both fast and Alfven modes with frequencies larger than the proton cyclotron frequency is invalid in the presence of the displacement current.Moreover,the presence of the displacement current leads to relatively large magnetic compressibility for the Alfven mode and relatively large electron compressibility for the fast mode.These results can be useful for a comprehensive understanding of the wave properties and the physics of particle energization phenomena in auroral plasmas. 相似文献
13.
Hai-Feng Yang Guo-Qing Zhao Heng-Qiang Feng Gilbert Pi Qiang Liu Liang Xiang Qiu-Huan Li Dan-Yang Ren 《天文和天体物理学研究(英文版)》2023,(4):96-104
Our previous studies on low-frequency electromagnetic cyclotron waves(ECWs) with amplitudes larger than 0.1nT in the solar wind revealed that the left-handed(LH) polarized ECWs are the dominant waves,and these waves preferentially occur in plasma conditions of high proton speed(Vp),high proton temperature(Tp),low proton density(Np).In the present study,using magnetic field and plasma data from the Wind mission between 2005 and2015,we perform a survey of small-amp... 相似文献
14.
Data analysis of sunspot oscillations based on a 6-hr SDO run of an observation showed that low frequency(0.2 ω 1 m Hz) oscillations are locally similar to three and five minute oscillations.The oscillations in the sunspot are concentrated in cells of a few arcsec, each of which has its own oscillation spectrum. The analysis of two scenarios for sunspot oscillations leads to a conclusion that local sunspot oscillations occur due to a subphotospheric resonator for slow MHD waves. Empirical models of a sunspot atmosphere and the theory of slow waves in thin magnetic flux tubes are applied to modeling the subphotospheric resonator. The spectrum of local oscillations consists of a great number of lines. This kind of spectrum can occur only if the subphotospheric resonator is a magnetic tube with a rather weak magnetic field. Magnetic tubes of this sort are umbral dots that appear due to the convective tongues in monolithic sunspots. The interrelation of local oscillations with umbral dots and wavefronts of traveling waves in sunspots is discussed. 相似文献
15.
Zhong-Quan Qu Shuai Wang Cheng-Lin Xu XiaoYu Zhang Ming-Guo Sun Chun-Lan Jin National Astronomical Observatories/Yunnan Astronomical Observatory Chinese Academy of Sciences Kunming zqqu@vip.km.net Graduate School of the Chinese Academy of Sciences Beijing 《中国天文和天体物理学报》2005,5(4):426-432
We analyze the spectral line broadening of those magneto-sensitive lines in solar magnetized atmospheres. The broadening at the line wings is due to the increase of the effective width of energy levels involved in Zeeman splitting, and the broadening at the line core also originated in Zeeman splitting under the condition that the Zeeman components are mixed. Therefore, the magnetoinduced or Zeeman broadening take effects on the whole line. The observed Stokes parameter data in a sunspot and outside it acquired by Solar Stokes Spectrum Telescope (S3T) are analyzed for the demonstration of this mechanism, and the Zeeman broadening rates are calculated for FeI6302.5 under some assumptions. Our result shows that the broadening is increased as the magnetic field strength becomes stronger, but the rate of increase at the line core is decreased as the field strength increases, while the rate at the wing does not show such an obvious regularity. The broadening is more effective in the line core than in the wings. 相似文献
16.
Jian Li Li-Yong Zhou Yi-Sui Sun Department of Astronomy Nanjing University Nanjing 《中国天文和天体物理学报》2006,6(5)
The orbital migration of Jovian planets is believed to have played an important role in shaping the Kuiper Belt. We investigate the effects of the long time-scale (2×107 yr) migration of Jovian planets on the orbital evolution of massless test particles that are initially located beyond 28 AU. Because of the slowness of the migration, Neptune's mean motion resonances capture test particles very efficiently. Taking into account the stochastic behavior during the planetary migration and for proper parameter values, the resulting concentration of objects in the 3:2 resonance is prominent, while very few objects enter the 2:1 resonance, thus matching the observed Kuiper Belt objects very well. We also find that such a long time-scale migration is favorable for exciting the inclinations of the test particles, because it makes the secular resonance possible to operate during the migration. Our analyses show that the v8 secular resonance excites the eccentricities of some test particles, so decreasing their perihelion distances, leading to close encounters with Neptune, which can then pump the inclinations up to 20℃. 相似文献
17.
Five-hundred-meter Aperture Spherical radio Telescope(FAST)is the world’s largest single dish radio telescope,which is located in Guizhou Province,in southwest China.The FAST feed cabin is supported and positioned by six steel cables.The deviation of the feed position and orientation would lead to loss in the telescope efficiency.In this paper,a series of electromagnetic(EM)simulations of the FAST facility with varying feed positions and orientation offsets was performed.The maximum gain of FAST is about 82.3 dBi and the sibelobe is–32 dB with respect to the main beam at 3 GHz.The simulation results have demonstrated that the telescope efficiency loss is more sensitive to the lateral feed deviation compared with the axial deviation.The telescope efficiency would decrease by 8.2%due to the FAST feed position deviation of 10 mm rms when the observing frequency is 3 GHz.The FAST feed deviation basically has no effect on the sidelobes and cross polarization characteristic according to the simulations. 相似文献
18.
《天文和天体物理学研究(英文版)》2016,(1)
In a real medium which has oscillations, the perturbations can cause an energy transfer between different modes. A perturbation, which is interpreted as an interaction between the modes, is inferred to be mode coupling. The mode coupling process in an inhomogeneous medium such as solar spicules may lead to the coupling of kink waves to local Alfv′en waves. This coupling occurs in practically any conditions when there is smooth variation in density in the radial direction. This process is seen as the decay of transverse kink waves in the medium. To study the damping of kink waves due to mode coupling, a 2.5-dimensional numerical simulation of the initial wave is considered in spicules. The initial perturbation is assumed to be in a plane perpendicular to the spicule axis. The considered kink wave is a standing wave which shows an exponential damping in the inhomogeneous layer after the mode coupling occurs. 相似文献
19.
Recent observations have found that chromospheric spicules behave likeAlfvenic fluctuations. Low-frequency Alfven waves are predicted to partially reflectin the transition region that has a gradient in the Alfven speed, thereby producinginward Alfven waves, which may interact nonlinearly with outward Alfven wavesto generate Alfv6nic turbulence. However, the signature of Alfvenic turbulence in thechromosphere has not yet been quantitatively analyzed with observations. Here we an-alyze some characteristics related to Alfv6nic turbulence with the observations fromHinode/SOT. We decompose the height-time diagram of the transverse oscillationsto separate the outward and inward propagating Alfvenic-like signals. The counter-propagating waves are found to have similar amplitude, period and phase speed, sug-gesting a state having an approximate balance in bi-directional energy fluxes. Counter-propagation of intensity oscillation with lower propagation speed is also presented,probably indicating the presence of slow mode waves. Moreover, we attempt to esti-mate the Elseisser spectra of the chromospheric turbulence for the first time. The rela-tive fluctuations in the magnetic field may be measured as the local slope of wave-likeshapes in spicules. The resulting low-frequency Elsaisser power spectra look similarto each other without showing a dominant population, which confirms these counter-propagating low-frequency Alfv6nic waves are in a state of balanced flux. These obser-vational results are believed to help us better understand the nature of chromosphericturbulence as well as chromospheric heating. 相似文献
20.
《紫金山天文台台刊》1996,(2)
The Plasma-maser instablility of Langmuir wave or Em wave in multicom-ponent plasma with stationary charged particulates is considered.The up-conversion of the wave evergy from low-frequency waves to the high-frequency waves is much enhanced owing to the deeper energy exchange between resonant waves and particles in dusty plasma.This results should be useful to interpret the anomalous high-frequency radiation phenomena in laboratory and astrophysical dusty plasma. 相似文献