Stationary and impulsive injection of electron beams in converging magnetic field

In this work we study time-dependent precipitation of an electron beam injected into a flaring atmosphere with a converging magnetic field by considering collisional and Ohmic losses with anisotropic scattering and pitch angle diffusion. Two injection regimes are investigated: short impulse and stationary injection. The effects of converging magnetic fields with different spatial profiles are compared and the energy deposition produced by the precipitating electrons at different depths and regimes is calculated. The time dependent Fokker-Planck equation for electron distribution in depth, energy and pitch angle was solved numerically by using the summary approximation method. It was found that steady state injection is established for beam electrons at 0.07-0.2 seconds after the injection onset depending on the initial beam parameters. Energy deposition by a stationary beam is strongly dependent on a self-induced electric field but less on a magnetic field convergence. Energy depositions by short electron impulses are found to be insensitive to the self-induced electric field but are strongly affected by a magnetic convergence. Short beam impulses are shown to produce sharp asymmetric hard X-ray bursts within a millisecond timescale often observed in solar flares.Comment: 14 pages, 15 figures, Astronomy and Astrophysics (accepted

On the generation of hydrodynamic shocks by mixed beams and occurrence of sunquakes in flares

Observations of solar flares with sunquakes by space- and ground-based instruments reveal essentially different dynamics of seismic events in different flares. Some sunquakes are found to be closely associated with the locations of hard X-ray (HXR) and white-light (WL) emission, while others are located outside either of them. In this article we investigate possible sources causing a seismic response in a form of hydrodynamic shocks produced by the injection of mixed (electron plus proton) beams, discuss the velocities of these shocks, and the depths where they deposit the bulk of their energy and momentum. The simulation of hydrodynamic shocks in flaring atmospheres induced by electron-rich and proton-rich beams reveals that the linear depth of the shock termination is shifted beneath the level of the quiet solar photosphere on a distance from 200 to 5000 km. The parameters of these atmospheric hydrodynamic shocks are used as initial condition for another hydrodynamic model developed for acoustic-wave propagation in the solar interior (Zharkov, Mon. Not. Roy. Astron. Soc. 431, 3414, 2013). The model reveals that the depth of energy and momentum deposition by the atmospheric shocks strongly affects the propagation velocity of the acoustic-wave packet in the interior. The locations of the first bounces from the photosphere of acoustic waves generated in the vicinity of a flare are seen as ripples on the solar surface, or sunquakes. Mixed proton-dominated beams are found to produce a strong supersonic shock at depths 200 – 300 km under the level of the quiet-Sun photosphere and in this way produce well-observable acoustic waves, while electron-dominated beams create a slightly supersonic shock propagating down to 5000 km under the photosphere. This shock can only generate acoustic waves at the top layers beneath the photosphere since the shock velocity very quickly drops below the local sound speed. The distance ΔΔ of the first bounce of the generated acoustic waves is discussed in relation to the minimal phase velocities of wave packets defined by the acoustic cutoff frequency and the parameters of atmospheric shock termination beneath the photosphere

Particle acceleration in 3D single current sheets formed in the solar corona and heliosphere: PIC approach

Acceleration of protons and electrons in a reconnecting current sheet (RCS) is investigated with the test particle and particle-in-cell (PIG) approaches in a 3D magnetic topology. PIG simulations confirm a spatial separation of electrons and protons with respect to the midplane depending on the guiding field. Simulation reveals that the separation occurs in magnetic topologies with strong guiding fields and lasts as long as the particles are kept dragged into a current sheet. This separation produces a polarisation electric field induced by the plasma feedback to a presence of accelerated particles, which shape can change from symmetric towards the midplane (for weak guiding field) to fully asymmetric (for strong guiding field). Particles are found accelerated at a midplane of any current sheets present in the heliosphere to the energies up to hundred keV for electrons and hundred MeV for protons. The maximum energy gained by particles during their motion inside the current sheet is defined by its magnetic field topology (the ratio of magnetic field components), the side and location from the X-nullpoint, where the particles enter a current sheet. In strong magnetic fields of the solar corona with weaker guiding fields, electrons are found circulating about the midplane to large distances where proton are getting accelerated, creating about the current sheet midplane clouds of high energy electrons, which can be the source of hard X-ray emission in the coronal sources of flares. These electrons are ejected into the same footpoint as protons after the latter reach the energy sufficicent to break from a current sheet. In a weaker magnetic field of the heliosphere the bounced electrons with lower energies cannot reach the midplane turning instead at some distance D before the current sheet midplane by 180 degrees from their initial motion. Also the beams of accelerated transit and bounced particles are found to generate turbulent electric fields in a form of Langmuir waves (electrons) or ion-acoustic waves (protons)

Comparison of seismic signatures of flares obtained by SOHO/MDI and GONG instruments

The first observations of seismic responses to solar flares were carried out using time-distance (TD) and holography techniques applied to SOHO/MDI Dopplergrams obtained from space and un-affected by terrestrial atmospheric disturbances. However, the ground-based network GONG is potentially a very valuable source of sunquake observations, especially in cases where space observations are unavailable. In this paper we present updated technique for pre-processing of GONG observations for application of subjacent vantage holography. Using this method and TD diagrams we investigate several sunquakes observed in association with M and X-class solar flares and compare the outcomes with those reported earlier using MDI data. In both GONG and MDI datasets, for the first time, we also detect the TD ridge associated with the September 9, 2001 flare. Our results show reassuringly positive identification of sunquakes from GONG data that can provide further information about the physics of seismic processes associated with solar flares.Comment: 19 pages, 6 figures, accepted to Astrophysical Journa

Helioseismic response to X2.2 solar flare of February 15, 2011

The X2.2-class solar flare of February 15, 2011, produced a powerful sunquake event, representing a helioseismic response to the flare impact in the solar photosphere, which was observed with the HMI instrument on the Solar Dynamics Observatory (SDO). The impulsively excited acoustic waves formed a compact wavepacket traveling through the solar interior and appearing on the surface as expanding wave ripples. The initial flare impacts were observed in the form of compact and rapid variations of the Doppler velocity, line-of-sight magnetic field and continuum intensity. These variations formed a typical two-ribbon flare structure, and are believed to be associated with thermal and hydrodynamic effects of high-energy particles heating the lower atmosphere. The analysis of the SDO/HMI and X-ray data from the Ramaty High Energy Solar Spectroscopic Imager (RHESSI) shows that the helioseismic waves were initiated by the photospheric impact in the early impulsive phase, observed prior to the hard X-ray (50-100 keV) impulse, and were probably associated with atmospheric heating by relatively low-energy electrons (~6-50 keV) and heat flux transport. The impact caused a short motion in the sunspot penumbra prior to the appearance of the helioseismic wave. It is found that the helioseismic wave front traveling through a sunspot had a lower amplitude and was significantly delayed relative to the front traveling outside the spot. These observations open new perspectives for studying the flare photospheric impacts and for using the flare-excited waves for sunspot seismology.Comment: 11 pages, 5 figures, accepted for ApJL, on-line movie: http://soi.stanford.edu/~sasha/Sunquakes

Сама собі глина: проект самотворення у жіночому письмі (повість «Хризантеми» Уляни Кравченко у контексті феміністичної критики і феміністичної педагогіки) (The Clay Itself: the Project of Self-Creation in Women’s Writing (the Story «Chrysanthemum» by Uliana Kravchenko in the Context of Feminist Criticism and Feminist Pedagogy))

У статті розглянуто місце і роль жіночого письма у просторі культури. Проаналізовано проблему жіночого самовиховання, підкреслено значення освітнього чинника для розвитку жінки-письменниці. Висвітлено становлення педагогічних ідей у тексті модерної української письменниці, вчительки, громадської діячки. (The article is dedicated to the analysis of particularities of women’s writing. The problem of women’s writing is considered as a revolt, which is characterized by endeavor to get through the men’s unification, to oppose the limitation of cultural and art space. The role and place of women’s writing in the space of culture is examined in the story «Chrysanthemum» by Uliana Kravchenko. The main attention is paid to the specification of the female, female texts and women as the authors. Based on the analyses of the object of investigation it is possible to conclude that women’s writing of modernism is characterized by the presence of specific artistic methods of concentrating the reader’s attention on various socials problems of women, from their psychological state, realized project of modern self-creation and self-representation. The problem of women’s self was analyzed and it was emphasized the importance of the educational factor for the development of female writer (the context of feminist criticism and feminist pedagogy). The content of Ukrainian women’s practical activity in the field of national school system have been exposed. It was introduced the establishment of educational ideas in the text of Uliana Kravchenko, first in Western Ukraine woman-poetess, modern Ukrainian writer, teacher, public figure, activist of Ukrainian womanish motion. We ground the structure of the communication woman with the world by her hands in the metaphor clay. The woman is the clay itself – in the self-education, cultural and art self-creation. Woman appears as a disharmonious person, she has acute inner conflict between spiritual demands and outward circumstances. We investigate how with the help of writing woman uncovers the spiritual world, inner trials, and emotional states.

Criminal legislation improvement of environment protection as eco-protective means of Russian Federation

The paper is dedicated to Article 246 of the Criminal Code of the Russian Federation which provides for the criminal responsibility of infringement of environment protection rules during work performance. The paper presents both general scientific (empirical data processing technique and system-based structural technique) and private-law (benchmarking analysis and history-based law) research approaches. Based upon comprehensive environmental legislation research as well as current criminal regulation measures in industrial production and other manufacturing activities, the author comes to a conclusion that infringement of environment protection rules during work performance is a failure to comply with requirements, approved techniques, technical regulations in the environment protection field for a specific kind of production along with the failure to comply with different standards in the environment protection field. To recognize a person as a legal entity under Article 246 of the Criminal Code of the Russian Federation, one should pay attention not only to legal confirmation of obligation to enforce environment protection rules during work performance or to monitor compliance, but also an actual execution without being enshrined in law. The author brings a new wording for Article 246 of the Criminal Code of the Russian Federation as well as its supplementary Part 2 and Part 3

Insights from ultrasound : enhancing our understanding of clinical phonetics

This is the editorial from the journal "Clinical Linguistics and Phonetics", from a Special Issue entitled "Insights from Ultrasound". \ud \ud The timing of this special issue was in part inspired by the 6th Ultrafest conference in Edinburgh in 2013, a meeting in which phoneticians, clinicians and engineers working in ultrasound tongue imaging came together. We invited contributions from these and other experts in the field working with ultrasound as a tool for investigating clinical populations; as a biofeedback device in speech therapy; or as a tool for investigating typical speech production, with a view to informing investigations of clinical populations