2012
DOI: 10.1007/s11214-012-9936-7
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Turbulence, Magnetic Reconnection in Turbulent Fluids and Energetic Particle Acceleration

Abstract: Turbulence is ubiquitous in astrophysics. It radically changes many astrophysical phenomena, in particular, the propagation and acceleration of cosmic rays. We present the modern understanding of compressible magnetohydrodynamic (MHD) turbulence, in particular its decomposition into Alfvén, slow and fast modes, discuss the density structure of turbulent subsonic and supersonic media, as well as other relevant regimes of astrophysical turbulence. All this information is essential for understanding the energetic… Show more

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Cited by 126 publications
(90 citation statements)
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References 258 publications
(298 reference statements)
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“…In these 2-D simulations the y dimension is chosen to be invariant. Since we solve a system of partial differential equations in a limited simulation region, we consider the periodic boundary conditions in the z direction, similar to other studies of such a problem (Makov and Payne, 1995;Verboncoeur and Gladd, 1995;Zeiler et al, 2002), so that a particle that leaves the system through the right or left boundary (see Fig. 7 for the model cartoon) appears on the opposite boundary.…”
Section: Simulation Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…In these 2-D simulations the y dimension is chosen to be invariant. Since we solve a system of partial differential equations in a limited simulation region, we consider the periodic boundary conditions in the z direction, similar to other studies of such a problem (Makov and Payne, 1995;Verboncoeur and Gladd, 1995;Zeiler et al, 2002), so that a particle that leaves the system through the right or left boundary (see Fig. 7 for the model cartoon) appears on the opposite boundary.…”
Section: Simulation Methodsmentioning
confidence: 99%
“…These current sheets in the solar-wind environment can be associated with streamers and filaments and can be produced by turbulence, created during the solar wind's ejection from the corona, while smaller-scale current sheets observed at several AU may originate from in situ turbulence in the solar wind (Greco et al, 2010;Lazarian et al, 2012). However, some alternative suggestions can be also considered, such as these current sheets being caused by certain processes in the interplanetary space, e.g.…”
Section: Zharkova and O Khabarova: Additional Acceleration Of Solmentioning
confidence: 99%
“…One such threedimensional kinetic simulation is described in Daughton et al (2011) and the argument that the simulation reflects the generation of intermittent cascading turbulence is discussed in Leonardis et al (2013). Second, magnetofluid turbulence itself can give rise to reconnection (Matthaeus and Montgomery 1980;Matthaeus and Lamkin 1985;Servidio et al 2011;Lazarian et al 2012;Donato et al 2013). The third way in which turbulence and reconnection are related occurs when the background within which reconnection is initiated is permeated by turbulence.…”
Section: Reconnection and Turbulencementioning
confidence: 99%
“…The third way in which turbulence and reconnection are related occurs when the background within which reconnection is initiated is permeated by turbulence. In that situation, estimates of reconnection rates and classical pictures involving slow shock waves are likely to be modified dramatically by the background turbulence (Matthaeus and Lamkin 1985;Lazarian and Vishniac 1999;Kowal et al 2009;Eyink et al 2011;Lazarian et al 2012). The turbulence can nudge fluid elements into thin current sheets and initiate reconnection.…”
Section: Reconnection and Turbulencementioning
confidence: 99%
“…Studies of the First order Fermi acceleration has been performed so far for non-relativistic reconnection (see de Gouveia dal Pino & Lazarian 2005, Lazarian 2005, Drake et al 2006, Lazarian & Opher 2009, Drake et al 2010, Lazarian & Desiati 2010, Kowal et al 2012. We briefly summarize those below.…”
Section: Acceleration At Relativistic Reconnectionmentioning
confidence: 99%