L. S. Yevlashin scite author profile

L. S. Yevlashin

4Publications

25Citation Statements Received

75Citation Statements Given

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Affiliations

Russian Academy of Sciences, Polar Geophysical Institute, Kola Science Centre

Publications

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World first complex optical instrumental observations of aurora in the Arctic in 1899−1900

2005

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Abstract. This report presents data and analysis of visual, photographic and auroral spectral data, obtained by the Russian astronomer J. Sykora from the Russian-Swedish expedition to Spitsbergen during the 1899-1900 winter season, which are historically significant for auroral studies. These data seem to be the first instrumental observations of auroral spectra in the Arctic and some of the emissions discovered have world priority. The second known photos in the world of aurora from the Arctic and undoubtedly the first ones for geomagnetic latitudes of about 75 • in the Spitsbergen Archipelago were obtained. The results of the expedition are discussed from a modern point of view and compared with our knowledge of the 21st century. A description of the equipment and methods that were used by Russian astronomers is presented. Both photographic and spectral devices using registration by photographic plates were used, along with special methods of their development and enhancement. Some statistical analysis was done on the basis of the expedition reports and diaries. This analysis shows that by using Sykora's data it was possible to discover the auroral oval or instantaneous auroral distribution over the polar region. Analysis of photographic samples and sketches of the aurora demonstrate typical auroral form outlines as they are described today. Spectral plates exposed for several hours to auroral lights revealed not only the main auroral emissions, which were well-known at that time, but several other unidentified weak emissions, which were rediscovered and interpreted years later.

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Variations of auroral hydrogen emission near substorm onset

et al. 2005

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Abstract. The results of coordinated optical ground-based observations of the auroral substorm on 26 March 2004 in the Kola Peninsula are described. Imaging spectrograph data with high spectral and temporal resolution recorded the Doppler profile of the Hα hydrogen emission; this allows us to estimate the average energy of precipitating protons and the emission intensity of the hydrogen Balmer line. Two different populations of precipitating protons were observed during an auroral substorm. The first of these is associated with a diffuse hydrogen emission that is usually observed in the evening sector of the auroral oval and located equatorward of the discrete electron arcs associated with substorm onset. The average energy of the protons during this precipitation was ∼20-35 keV, and the energy flux was ∼3×10 −4 Joule/m 2 s. The second proton population was observed 1-2 min after the breakup during 4-5 min of the expansion phase of substorm into the zone of bright, discrete auroral structures (N-S arcs). The average energy of the protons in this population was ∼60 keV, and the energy flux was ∼2.2×10 −3 Joule/m 2 s. The observed spatial structure of hydrogen emission is additional evidence of the higher energy of precipitated protons in the second population, relative to the protons in the diffuse aurora. We believe that the most probable mechanism of precipitation of the second population protons was pitch-angle scattering of particles due to non-adiabatic motion in the region of local dipolarization near the equatorial plane.

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Spectral characteristics of great auroras during two superstorms

Yevlashin

2000

Physics and Chemistry of the Earth, Part B: Hydrology, Oceans a

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Some features of disturbances in the ionosphere F-region during the red aurora of the type A

Yevlashina¹,

Yevlashin²

1971

Journal of Atmospheric and Terrestrial Physics

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L. S. Yevlashin

World first complex optical instrumental observations of aurora in the Arctic in 1899−1900

Variations of auroral hydrogen emission near substorm onset

Spectral characteristics of great auroras during two superstorms

Some features of disturbances in the ionosphere F-region during the red aurora of the type A

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