Kinetic-scale magnetic turbulence and finite Larmor radius effects at Mercury
暂无分享,去创建一个
S. A. Boardsen | G. V. Khazanov | H. Korth | B. Anderson | J. Slavin | V. Uritsky | S. Boardsen | H. Korth | E. Donovan | E. Donovan | G. Khazanov | V. M. Uritsky | J. A. Slavin | E. F. Donovan | B. J. Anderson
[1] K. Glassmeier,et al. ULF waves in planetary magnetospheres , 2013 .
[2] James A. Slavin,et al. The dayside magnetospheric boundary layer at Mercury , 2011 .
[3] S. Solomon,et al. The interplanetary magnetic field environment at Mercury's orbit , 2011 .
[4] J. Valdivia,et al. Spatial distribution of the eddy diffusion coefficients in the plasma sheet during quiet time and substorms from THEMIS satellite data , 2011 .
[5] D. Knudsen. Kinetic Theory of the Inner Magnetospheric Plasma , 2010 .
[6] P. Canu,et al. Three dimensional anisotropic κ spectra of turbulence at subproton scales in the solar wind. , 2010, Physical review letters.
[7] J. Borovsky. Contribution of strong discontinuities to the power spectrum of the solar wind. , 2010, Physical review letters.
[8] L. Blomberg,et al. The Kelvin–Helmholtz instability at Mercury: An assessment , 2010 .
[9] S. Galtier,et al. A UNIVERSAL LAW FOR SOLAR-WIND TURBULENCE AT ELECTRON SCALES , 2010, 1008.3513.
[10] P. Charbonneau,et al. Formation and disruption of current filaments in a flow-driven turbulent magnetosphere , 2010, 1008.2938.
[11] Mehdi Benna,et al. MESSENGER Observations of Extreme Loading and Unloading of Mercury’s Magnetic Tail , 2010, Science.
[12] P. Mininni,et al. Structures in magnetohydrodynamic turbulence: detection and scaling. , 2010, Physical review. E, Statistical, nonlinear, and soft matter physics.
[13] V. Uritsky,et al. Multiscale auroral emission statistics as evidence of turbulent reconnection in Earth's midtail plasma sheet , 2010 .
[14] V. Angelopoulos,et al. Multiple overshoot and rebound of a bursty bulk flow , 2010 .
[15] T. Horbury,et al. Anisotropy of solar wind turbulence between ion and electron scales. , 2010, Physical review letters.
[16] S. Solomon,et al. MESSENGER observations of large flux transfer events at Mercury , 2010 .
[17] D. Baker,et al. MESSENGER observations of the plasma environment near Mercury , 2009 .
[18] S. Solomon,et al. Space environment of Mercury at the time of the first MESSENGER flyby: Solar wind and interplanetary magnetic field modeling of upstream conditions , 2009 .
[19] S. Solomon,et al. Comparison of ultra‐low‐frequency waves at Mercury under northward and southward IMF , 2009 .
[20] S. Schwartz,et al. Universality of solar-wind turbulent spectrum from MHD to electron scales. , 2009, Physical review letters.
[21] Y. Khotyaintsev,et al. Evidence of a cascade and dissipation of solar-wind turbulence at the electron gyroscale. , 2009, Physical review letters.
[22] S. Solomon,et al. MESSENGER Observations of Magnetic Reconnection in Mercury’s Magnetosphere , 2009, Science.
[23] B. Anderson,et al. Kinetic instabilities in Mercury's magnetosphere: Three‐dimensional simulation results , 2009 .
[24] Yu. I. Yermolaev,et al. Spatial variation of eddy-diffusion coefficients in the turbulent plasma sheet during substorms , 2009 .
[25] P. Dmitruk,et al. Magnetic reconnection in two-dimensional magnetohydrodynamic turbulence. , 2009, Physical review letters.
[26] Daniel N. Baker,et al. MESSENGER observations of Mercury's magnetosphere during northward IMF , 2009 .
[27] J. Eastwood,et al. Observations of turbulence generated by magnetic reconnection. , 2008, Physical review letters.
[28] V. Angelopoulos,et al. THEMIS observations of a hot flow anomaly: Solar wind, magnetosheath, and ground‐based measurements , 2008 .
[29] Richard D. Starr,et al. Mercury's Magnetosphere After MESSENGER's First Flyby , 2008, Science.
[30] James A. Slavin,et al. The Structure of Mercury's Magnetic Field from MESSENGER's First Flyby , 2008, Science.
[31] A. J. Klimas,et al. Scale‐free and scale‐dependent modes of energy release dynamics in the nighttime magnetosphere , 2008, 0807.0631.
[32] A. Vaivads,et al. Magnetosheath plasma turbulence and its spatiotemporal evolution as observed by the cluster spacecraft. , 2008, Physical review letters.
[33] S. Solomon,et al. Narrow‐band ultra‐low‐frequency wave observations by MESSENGER during its January 2008 flyby through Mercury's magnetosphere , 2008 .
[34] S. Solomon,et al. MESSENGER and Venus Express observations of the solar wind interaction with Venus , 2007 .
[35] L. Blomberg,et al. Plasma Waves in the Hermean Magnetosphere , 2007 .
[36] B. Anderson,et al. The Magnetometer Instrument on MESSENGER , 2007 .
[37] Rumi Nakamura,et al. Hermean Magnetosphere-Solar Wind Interaction , 2007 .
[38] L. Sorriso-Valvo,et al. Small-Scale Energy Cascade of the Solar Wind Turbulence , 2007, 0710.0763.
[39] F. Leblanc,et al. Ion energization during substorms at Mercury , 2007 .
[40] P. Mininni,et al. Energy spectra stemming from interactions of Alfvén waves and turbulent eddies. , 2007, Physical review letters.
[41] N. Singh,et al. Electrostatic wave generation and transverse ion acceleration by Alfvénic wave components of broadband extremely low frequency turbulence , 2007 .
[42] W. Dorland,et al. ASTROPHYSICAL GYROKINETICS: KINETIC AND FLUID TURBULENT CASCADES IN MAGNETIZED WEAKLY COLLISIONAL PLASMAS , 2007, 0704.0044.
[43] M. Maksimović,et al. Alfvén vortex filaments observed in magnetosheath downstream of a quasi‐perpendicular bow shock , 2006 .
[44] W. Dorland,et al. Interplanetary and interstellar plasma turbulence , 2006, astro-ph/0610810.
[45] V. Uritsky,et al. Role of stochastic fluctuations in the magnetosphere‐ionosphere system: A stochastic model for the AE index variations , 2006 .
[46] J. Steinberg,et al. The Calm before the Storm in CIR/Magnetosphere Interactions , 2006 .
[47] D. Delcourt,et al. Quasi‐adiabaticity in bifurcated current sheets , 2006 .
[48] Wolfgang Baumjohann,et al. Bursty Bulk Flow Driven Turbulence in the Earth’s Plasma Sheet , 2006 .
[49] M. Kivelson,et al. Spatial correlation of solar-wind turbulence from two-point measurements. , 2005, Physical review letters.
[50] G. Fletcher. The calm before the storm. , 2005, The practising midwife.
[51] Rumi Nakamura,et al. Spatial scale of high‐speed flows in the plasma sheet observed by Cluster , 2004 .
[52] Joseph E. Borovsky,et al. MHD turbulence in the Earth's plasma sheet: Dynamics, dissipation, and driving , 2003 .
[53] T. Mukai,et al. Tail plasma sheet models derived from Geotail particle data , 2003 .
[54] Z Warhaft,et al. Turbulence in nature and in the laboratory , 2002, Proceedings of the National Academy of Sciences of the United States of America.
[55] Clark R. Chapman,et al. The MESSENGER mission to Mercury: Scientific objectives and implementation , 2001 .
[56] Yoshitaka Saito,et al. Geotail observations of the Hall current system: Evidence of magnetic reconnection in the magnetotail , 2001 .
[57] D. Baker,et al. Stable critical behavior and fast field annihilation in a magnetic field reversal model , 2001 .
[58] Tom Chang,et al. Self-organized criticality, multi-fractal spectra, sporadic localized reconnections and intermittent turbulence in the magnetotail , 1999 .
[59] B. A. Carreras,et al. Experimental Evidence of Long-Range Correlations and Self-Similarity in Plasma Fluctuations , 1999 .
[60] A. Lazarian,et al. Reconnection in a Weakly Stochastic Field , 1998, astro-ph/9811037.
[61] Christopher T. Russell,et al. High-speed ion flow, substorm current wedge, and multiple Pi 2 pulsations , 1998 .
[62] M. Fujimoto,et al. Solar wind control of density and temperature in the near‐Earth plasma sheet: WIND/GEOTAIL collaboration , 1997 .
[63] P. Robinson,et al. Nonlinear wave collapse and strong turbulence , 1997 .
[64] M. Liemohn,et al. Lower hybrid turbulence and ponderomotive force effects in space plasmas subjected to large-amplitude low-frequency waves , 1996 .
[65] A. Pouquet,et al. Model of intermittency in magnetohydrodynamic turbulence. , 1995, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.
[66] C. Russell,et al. Characteristics of ion flow in the quiet state of the inner plasma sheet , 1993 .
[67] D. Aaron Roberts,et al. Velocity shear generation of solar wind turbulence , 1992 .
[68] M. Fujimoto,et al. Ion inertia effect on the Kelvin-Helmholtz instability , 1991 .
[69] A. Kolmogorov,et al. The local structure of turbulence in incompressible viscous fluid for very large Reynolds numbers , 1991, Proceedings of the Royal Society of London. Series A: Mathematical and Physical Sciences.
[70] Lev M. Zelenyi,et al. Regular and chaotic charged particle motion in magnetotaillike field reversals: 1. Basic theory of trapped motion , 1989 .
[71] G. Paschmann,et al. Average plasma properties in the central plasma sheet , 1989 .
[72] V. A. Sergeev,et al. Pitch-angle scattering of energetic protons in the magnetotail current sheet as the dominant source of their isotropic precipitation into the nightside ionosphere , 1983 .
[73] W. Matthaeus,et al. Stationarity of magnetohydrodynamic fluctuations in the solar wind , 1982 .
[74] James A. Slavin,et al. Solar wind flow about the terrestrial planets 1. Modeling bow shock position and shape , 1981 .
[75] A. Pouquet. On two-dimensional magnetohydrodynamic turbulence , 1978, Journal of Fluid Mechanics.
[76] V. Bailey. The Interplanetary Magnetic Field , 1963, Nature.
[77] J. Scudder,et al. OBSERVATIONS AT THE PLANET MERCURY BY THE PLASMA , 2011 .
[78] Ming Li. Fractal Time Series—A Tutorial Review , 2010 .
[79] C. Russell,et al. Global hybrid simulations of solar wind interaction with Mercury: Magnetosperic boundaries , 2006 .
[80] K. Kabin,et al. On the space environment of Mercury , 2004 .
[81] T. Mukai,et al. An empirical model of the plasma environment around Mercury , 2004 .
[82] Wolfgang Baumjohann,et al. The magnetosphere of Mercury and its solar wind environment , 2004 .
[83] D. Biskamp,et al. Magnetohydrodynamic Turbulence , 2003 .
[84] E. E. Antonova. Magnetostatic equilibrium and turbulent transport in Earth’s magnetosphere: A review of experimental observation data and theoretical approaches , 2002 .
[85] Tom Changa,et al. Self-organized criticality , multi-fractal spectra , sporadic localized reconnections and intermittent turbulence in the magnetotail , 1999 .
[86] D. H. Faireield. Solar Wind Control of the Size and Shape of the Magnetosphere , 1991 .
[87] A. Monin,et al. Statistical fluid mechanics: Mechanics of turbulence. Volume 2 /revised and enlarged edition/ , 1975 .
[88] D. Robinson. Two‐Dimensional Magnetohydrodynamic Turbulence , 1968 .
[89] A. N. Kolmogorov. Equations of turbulent motion in an incompressible fluid , 1941 .