32 research outputs found

    Particle interactions with single or multiple 3D solar reconnecting current sheets

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    The acceleration of charged particles (electrons and protons) in flaring solar active regions is analyzed by numerical experiments. The acceleration is modelled as a stochastic process taking place by the interaction of the particles with local magnetic reconnection sites via multiple steps. Two types of local reconnecting topologies are studied: the Harris-type and the X-point. A formula for the maximum kinetic energy gain in a Harris-type current sheet, found in a previous work of ours, fits well the numerical data for a single step of the process. A generalization is then given approximating the kinetic energy gain through an X-point. In the case of the multiple step process, in both topologies the particles' kinetic energy distribution is found to acquire a practically invariant form after a small number of steps. This tendency is interpreted theoretically. Other characteristics of the acceleration process are given, such as the mean acceleration time and the pitch angle distributions of the particles.Comment: 18 pages, 9 figures, Solar Physics, in pres

    IRF4 and BATF are critical for CD8(+) T-cell function following infection with LCMV.

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    CD8(+) T-cell functions are critical for preventing chronic viral infections by eliminating infected cells. For healthy immune responses, beneficial destruction of infected cells must be balanced against immunopathology resulting from collateral damage to tissues. These processes are regulated by factors controlling CD8(+) T-cell function, which are still incompletely understood. Here, we show that the interferon regulatory factor 4 (IRF4) and its cooperating binding partner B-cell-activating transcription factor (BATF) are necessary for sustained CD8(+) T-cell effector function. Although Irf4(-/-) CD8(+) T cells were initially capable of proliferation, IRF4 deficiency resulted in limited CD8(+) T-cell responses after infection with the lymphocytic choriomeningitis virus. Consequently, Irf4(-/-) mice established chronic infections, but were protected from fatal immunopathology. Absence of BATF also resulted in reduced CD8(+) T-cell function, limited immunopathology, and promotion of viral persistence. These data identify the transcription factors IRF4 and BATF as major regulators of antiviral cytotoxic T-cell immunity

    Magnetoluminescence

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    Pulsar Wind Nebulae, Blazars, Gamma Ray Bursts and Magnetars all contain regions where the electromagnetic energy density greatly exceeds the plasma energy density. These sources exhibit dramatic flaring activity where the electromagnetic energy distributed over large volumes, appears to be converted efficiently into high energy particles and gamma-rays. We call this general process magnetoluminescence. Global requirements on the underlying, extreme particle acceleration processes are described and the likely importance of relativistic beaming in enhancing the observed radiation from a flare is emphasized. Recent research on fluid descriptions of unstable electromagnetic configurations are summarized and progress on the associated kinetic simulations that are needed to account for the acceleration and radiation is discussed. Future observational, simulation and experimental opportunities are briefly summarized.Comment: To appear in "Jets and Winds in Pulsar Wind Nebulae, Gamma-ray Bursts and Blazars: Physics of Extreme Energy Release" of the Space Science Reviews serie

    Stochastic Acceleration by Turbulence

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    The subject of this paper is stochastic acceleration by plasma turbulence, a process akin to the original model proposed by Fermi. We review the relative merits of different acceleration models, in particular the so called first order Fermi acceleration by shocks and second order Fermi by stochastic processes, and point out that plasma waves or turbulence play an important role in all mechanisms of acceleration. Thus, stochastic acceleration by turbulence is active in most situations. We also show that it is the most efficient mechanism of acceleration of relatively cool non relativistic thermal background plasma particles. In addition, it can preferentially accelerate electrons relative to protons as is needed in many astrophysical radiating sources, where usually there are no indications of presence of shocks. We also point out that a hybrid acceleration mechanism consisting of initial acceleration by turbulence of background particles followed by a second stage acceleration by a shock has many attractive features. It is demonstrated that the above scenarios can account for many signatures of the accelerated electrons, protons and other ions, in particular 3^3He and 4^4He, seen directly as Solar Energetic Particles and through the radiation they produce in solar flares.Comment: 29 pages 7 figures for proceedings of ISSI-Bern workshop on Particle Acceleration 201

    The Earth: Plasma Sources, Losses, and Transport Processes

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    This paper reviews the state of knowledge concerning the source of magnetospheric plasma at Earth. Source of plasma, its acceleration and transport throughout the system, its consequences on system dynamics, and its loss are all discussed. Both observational and modeling advances since the last time this subject was covered in detail (Hultqvist et al., Magnetospheric Plasma Sources and Losses, 1999) are addressed

    Plasma Sources in Planetary Magnetospheres: Mercury

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    Immunologische Aspekte der Nierentransplantation in der Schweiz 1981-1992.Swisstransplant Arbeitsgruppe Nierentransplantation [Immunological aspects of kidney transplantation in Switzerland 1981-1992. Swiss Transplant Work Group Kidney Transplantation].

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    Every year some 200-260 kidney transplants are performed in Switzerland, improving the quality of life of patients with end stage renal disease. The current organ shortage is delaying transplantation of the 400 patients on the waiting list, a situation which calls for optimal utilization of the available donor kidneys. It is well established that AB0-compatibility, negative cytotoxic crossmatch, and optimal immunosuppressive therapy including cyclosporin A are important for a favorable clinical outcome. To identify further factors influencing transplant outcome, we undertook a retrospective study of all 1656 transplants to which the above criteria applied. We defined transplants matched for at least 1A, 1B, and 1DR HLA antigen as the better matched, and the remainder as the less well matched grafts. In patients who were not or only weakly immunized to alloantigens, the 5-year graft survival probability was 0.78 versus 0.69 for the better versus the less well matched transplants (p < 0.005). The strongly immunized patients did not, however, show a significant association between the degree of HLA matching and graft survival, presumably because there were more immunized patients in the HLA matched group. As expected, the patients previously immunized to alloantigens showed significantly reduced graft survival early after transplantation. Positive CMV serology, sex mismatch, and cold ischemia time did not correlate with graft survival. Compared to results obtained in the USA or Germany, the survival time of donor kidneys transplanted in Switzerland was significantly increased. Factors contributing to the good results in Switzerland are discussed. Future goals are reduction of alloimmunization and optimized HLA compatibility
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