T. M. Minasyants scite author profile

T. M. Minasyants

5Publications

7Citation Statements Received

6Citation Statements Given

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Affiliations

Fesenkov Astrophysical Institute, National Academy of Sciences of the Republic of Kazakhstan, National Center of Space Research and Technology

Publications

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Features of development of sustained fluxes of high-energy gamma-ray emission at different stages of solar flares

Minasiants¹,

Minasyants

Minasiants³

et al. 2019

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We have studied properties of sustained gamma fluxes having quantum energies of >100 MeV at different stages of flares with 1-min temporal resolution (Fermi/LAT). The most probable process of emergence of high-energy gamma-quanta during the impulsive phase of flares (6 events) has been confirmed. Acceleration of particles, produced by flare energy release (at dissipation of current sheet), occurs when they interact with a shock front of a coronal mass ejection (CME), which develops in the same active region at the same time. Nuclear interactions of accelerated protons (>500 MeV) with plasma ions lead further to the emergence of high-energy gamma-quanta. We have established that the interaction between a flare flux and a high-speed CME during the flare impulsive phase occurs within fairly limited periods — from 2 to 16 min. In the events considered, we have found a direct connection between maximum gamma flux F max (γ > 100 MeV) and CME velocity. High maximum values of gamma fluxes are typical of the flare impulsive phase: 3.5·10⁻⁴ cm⁻²s⁻¹ ≤ F max (γ > 100 MeV) ≤ 1.3·10⁻² cm⁻² s⁻¹. At the same time, the value F max (γ > 100 MeV) = 0.013 cm⁻²s⁻¹ was the highest for the events observed by Fermi/LAT from 2008 to 2017. During the development of CMEs moving with a supersonic speed, shock waves are formed which are the major power source of accelerated particles during the main phase of gradual flares. In some cases, however, the impact of shock waves on particle acceleration is the greatest in the short impulsive phase. To reveal parameters most effectively influencing the generation of high-energy gamma-ray emission, we have compared 17 flare events. The most significant parameter proved to be the time interval of joint action of flare process and CME shocks. We have established that during simultaneous development of flare process and CME attendant on the flare, the most efficient particle acceleration occurs which gives rise to maximum fluxes of high-energy gamma-quanta.

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The angle of inclination of the sunspot symmetry axis to the solar surface

Obashev¹,

Gainullina²,

Minasyants³

et al. 1982

Sol Phys

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The Wilson effect, used before only as a method of determining the physical depression of sunspots, is used here to estimate a quite different parameter-the sunspot symmetry axis inclination angle to the solar surface, this explains the observed negative Wilson effect.On the basis ofphotoheliograms taken with three telescopes of the High-Altitude Solar observatory 'Peak Alma-Ata', the Wilson effect for the whole solar disk is investigated, the east and west parts of the disk being studied separately. 111 sunspots of regular shape at different heliocentric angles were measured, eight of them being under observations from one limb to the other. To study the dependence of the Wilson effect on the heliocentric angle, all observations within an angular interval of 10 ~ were averaged. The dependence thus derived is described by two sinusoids having the zero point shifted along both axes. The shift of the zero Wilson effect to the west, i.e., a shift along the heliocentric angle axis, can be caused by the deviation of the sunspot axis to the east from the normal to the solar surface. On the 'line of sight-normal' plane the angle corresponding to this deviation is ~ = 34 ~ + 14 ~

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Variations in the Fe/O value resulting from changes in the ion energy in flows of accelerated solar particles

Minasyants

Томозов

2016

Geomagn. Aeron.

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Fe/O ratio variations during the disturbed stage in the development of the solar cosmic ray fluxes: Manifestations of the first ionization potential effect in the solar cosmic ray composition

Minasyants

Томозов

2016

Geomagn. Aeron.

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High-resolution time changes in some indices and parameters of solar–terrestrial physics

Minasyants

2005

Astronomical & Astrophysical Transactions

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T. M. Minasyants

Features of development of sustained fluxes of high-energy gamma-ray emission at different stages of solar flares

The angle of inclination of the sunspot symmetry axis to the solar surface

Variations in the Fe/O value resulting from changes in the ion energy in flows of accelerated solar particles

Fe/O ratio variations during the disturbed stage in the development of the solar cosmic ray fluxes: Manifestations of the first ionization potential effect in the solar cosmic ray composition

High-resolution time changes in some indices and parameters of solar–terrestrial physics

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