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Alves, E.P.; Grismayer, T.; Martins, S.F.; Fiuza, F.; Fonseca, R.A.; Silva, L.O. |
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Title |
Large-scale Magnetic Field Generation Via the Kinetic Kelvin-helmholtz Instability In Unmagnetized Scenarios |
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Year |
2012 |
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Astrophysical Journal Letters |
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746 |
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2 |
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L14 |
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Collisionless plasma instabilities are fundamental in magnetic field generation in astrophysical scenarios, but their role has been addressed in scenarios where velocity shear is absent. In this work we show that velocity shears must be considered when studying realistic astrophysical scenarios, since these trigger the collisionless Kelvin-Helmholtz instability (KHI). We present the first self-consistent three-dimensional (3D) particle-in-cell (PIC) simulations of the KHI in conditions relevant for unmagnetized relativistic outflows with velocity shear, such as active galactic nuclei (AGN) and gamma-ray bursts (GRBs). We show the generation of a strong large-scale DC magnetic field, which extends over the entire shear-surface, reaching thicknesses of a few tens of electron skin depths, and persisting on time-scales much longer than the electron time scale. This DC magnetic field is not captured by MHD models since it arises from intrinsically kinetic effects. Our results indicate that the KHI can generate intense magnetic fields yielding equipartition values up to \epsilonB/\epsilonp ~ 10^-3 in the electron time-scale. The KHI-induced magnetic fields have a characteristic structure that will lead to a distinct radiation signature, and can seed the turbulent dynamo amplification process. The dynamics of the KHI are relevant for non-thermal radiation modeling and can also have a strong impact on the formation of relativistic shocks in presence of velocity shears. |
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WOS:000300611100001 |
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1322 |
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Alves, L.L.; Bizarro, J.P.S.; Fonseca, R.A. |
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Special Issue on the Numerical Simulation of Plasmas |
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2010 |
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Ieee Transactions On Plasma Science |
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38 |
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9 |
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2082-2084 |
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0093-3813 |
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WOS:000283252500001 |
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IPFN @ jsousa @ |
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841 |
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Alves, L.L.; Marques, L. |
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Fluid modelling of capacitively coupled radio-frequency discharges: a review |
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2012 |
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Plasma Physics and Controlled Fusion |
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54 |
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12 |
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124012-124012 |
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Chemical-Vapor-Deposition; Mass-Spectrometry Detection; Rf Glow-Discharges; Carbon-Films; Low-Pressure; 2-Dimensional Model; Amorphous-Silicon; Plasma Chemistry; Self-Consistent; Hybrid Model |
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This paper reviews the basis and the successes with the fluid modelling of capacitively coupled radio-frequency discharges, produced within a parallel-plate cylindrical setup at (single) 13.56-80MHz frequencies, 6 x 10(-2)-6 Torr pressures and 50-1000V rf-applied voltages, in SiH4-H-2, H-2 and N-2. The two-dimensional, time-dependent model used in the simulations accounts for the production, transport and destruction of the charged particles (via the electron and ion continuity and momentum-transfer equations, and the electron mean energy transport equations), and of the excited species and/or radicals (via their rate balance equations, including very complete kinetic descriptions with several collisional-radiative production/destruction mechanisms, coupled to the two-term electron Boltzmann equation), accounting also for the self-consistent development of the rf field (via the solution to Poisson's equation). The charged particle transport equations are solved with and without corrective flux terms (due to inertia and friction effects), whose influence on results is discussed. In the case of silane-hydrogen mixtures, the model further includes a phenomenological description of the plasma-substrate interaction to calculate the deposition rate of a-Si : H thin films. In general, the model gives good predictions for the self-bias voltage, the coupled power and the intensities of radiative emission transitions (both average and spatially resolved), underestimating the electron density by a factor of 3-4. |
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WOS:000312579500015 |
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1388 |
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Amelino-Camelia, G.; Aplin, K.; Arndt, M.; Barrow, J.D.; Bingham, R.J.; Borde, C.; Bouyer, P.; Caldwell, M.; Cruise, A.M.; Damour, T.; D'Arrigo, P.; Dittus, H.; Ertmer, W.; Foulon, B.; Gill, P.; Hammond, G.D.; Hough, J.; Jentsch, C.; Johann, U.; Jetzer, P.; Klein, H.; Lambrecht, A.; Lamine, B.; Laemmerzahl, C.; Lockerbie, N.; Loeffler, F.; Mendonca, J.T.; Mester, J.; Ni, W.-T.; Pegrum, C.; Peters, A.; Rasel, E.; Reynaud, S.; Shaul, D.; Sumner, T.J.; Theil, S.; Torrie, C.; Touboul, P.; Trenkel, C.; Vitale, S.; Vodel, W.; Wang, C.; Ward, H.; Woodgate, A. |
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Title |
GAUGE: the GrAnd Unification and Gravity Explorer |
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2009 |
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Experimental Astronomy |
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23 |
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2 |
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549-572 |
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The GAUGE (GrAnd Unification and Gravity Explorer) mission proposes to use a drag-free spacecraft platform onto which a number of experiments are attached. They are designed to address a number of key issues at the interface between gravity and unification with the other forces of nature. The equivalence principle is to be probed with both a high-precision test using classical macroscopic test bodies, and, to lower precision, using microscopic test bodies via cold-atom interferometry. These two equivalence principle tests will explore string-dilaton theories and the effect of space-time fluctuations respectively. The macroscopic test bodies will also be used for intermediate-range inverse-square law and an axion-like spin-coupling search. The microscopic test bodies offer the prospect of extending the range of tests to also include short-range inverse-square law and spin-coupling measurements as well as looking for evidence of quantum decoherence due to space-time fluctuations at the Planck scale. |
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0922-6435 |
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WOS:000263505600003 |
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IPFN @ jsousa @ |
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447 |
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Annaratone, B.M.; Biancalani, A.; Bruno, D.; Capitelli, M.; Ceccherini, F.; Daly, E.; de Pascale, O.; Diomede, P.; D'Ammando, G.; Hilgers, A.; Longo, S.; Marcuccio, S.; Mendonca, J.T.; Nagnibeda, V.; Pegoraro, F.; Sanmartin, J.R. |
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Plasma kinetics issues in an ESA study for a plasma laboratory in space |
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2008 |
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Plasma Physics And Controlled Fusion |
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50 |
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7 |
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A study supported by the European Space Agency (ESA), in the context of its General Studies Programme, performed an investigation of the possible use of space for studies in pure and applied plasma physics, in areas not traditionally covered by 'space plasma physics'. A set of experiments have been identified that can potentially provide access to new phenomena and to allow advances in several fields of plasma science. These experiments concern phenomena on a spatial scale (10(1)-10(4) m) intermediate between what is achievable on the ground and the usual solar system plasma observations. Detailed feasibility studies have been performed for three experiments: active magnetic experiments, large-scale discharges and long tether-plasma interactions. The perspectives opened by these experiments are discussed for magnetic reconnection, instabilities, MHD turbulence, atomic excited states kinetics, weakly ionized plasmas, plasma diagnostics, artificial auroras and atmospheric studies. The discussion is also supported by results of numerical simulations and estimates. |
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0741-3335 |
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WOS:000256544100017 |
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IPFN @ jsousa @ |
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459 |
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