71 research outputs found
Evolution of forest pedogenesis in the south of the forest-steppe of the Central Russian Upland in the Late Holocene
The Late Holocene stage of forest pedogenesis has been studied on the interfluves along river valleys in the forest-steppe zone of the Central Russian Upland. The development of gray forest soils from the former chernozems as a result of the Late Holocene advance of forest vegetation over steppes is discusse
Low temperature thermal expansion of pure and inert gas-doped Fullerite C60
The low temperature (2-24 K) thermal expansion of pure (single crystal and
polycrystalline) C60 and polycrystalline C60 intercalated with He, Ne, Ar, and
Kr has been investigated using high-resolution capacitance dilatometer. The
investigation of the time dependence of the sample length variations on heating
shows that the thermal expansion is determined by the sum of positive and
negative contributions, which have different relaxation times. The negative
thermal expansion usually prevails at helium temperatures. The positive
expansion is connected with the phonon thermalization of the system. The
negative expansion is caused by reorientation of the C60 molecules. It is
assumed that the reorientation is of quantum character. The inert gas
impurities affect very strongly the reorientation of the C60 molecules
especially at liquid helium temperatures. A temperature hysteresis of the
thermal expansion coefficient of Kr- and He- C60 solutions has been revealed.
The hysteresis is attributed to orientational polyamorphous transformation in
these systems.Comment: 18 pages, 12 figure
On the polyamorphism of fullerite-based orientational glasses
The dilatometric investigation in the temperature range of 2-28K shows that a
first-order polyamorphous transition occurs in the orientational glasses based
on C60 doped with H2, D2 and Xe. A polyamorphous transition was also detected
in C60 doped with Kr and He. It is observed that the hysteresis of thermal
expansion caused by the polyamorphous transition (and, hence, the transition
temperature) is essentially dependent on the type of doping gas. Both positive
and negative contributions to the thermal expansion were observed in the low
temperature phase of the glasses. The relaxation time of the negative
contribution occurs to be much longer than that of the positive contribution.
The positive contribution is found to be due to phonon and libron modes, whilst
the negative contribution is attributed to tunneling states of the C60
molecules. The characteristic time of the phase transformation from the low-T
phase to the high-T phase has been found for the C60-H2 system at 12K. A
theoretical model is proposed to interpret these observed phenomena. The
theoretical model proposed, includes a consideration of the nature of
polyamorphism in glasses, as well as the thermodynamics and kinetics of the
transition. A model of non-interacting tunneling states is used to explain the
negative contribution to the thermal expansion. The experimental data obtained
is considered within the framework of the theoretical model. From the
theoretical model the order of magnitude of the polyamorphous transition
temperature has been estimated. It is found that the late stage of the
polyamorphous transformation is described well by the Kolmogorov law with an
exponent of n=1. At this stage of the transformation, the two-dimensional phase
boundary moves along the normal, and the nucleation is not important.Comment: 29 pages, 14 figures, added references, corrected typo
Evolution of the carbonate state of agrogenically transformed dark gray forest soils in the central forest-steppe
yesBSUThe integrated study of the carbonate state of soils, which involves all the forms of soil carbonates at different levels of the soil organization, allows exactly assessing the degree and the rate of the soil transformation due to agricultural developmen
Evolution of the carbonate state of agrogenically transformed dark gray forest soils in the central forest-steppe
The integrated study of the carbonate state of soils, which involves all the forms of soil carbonates at different levels of the soil organization, allows exactly assessing the degree and the rate of the soil transformation due to agricultural developmentyesBS
Anthropogenic evolution of dark gray forest-steppe soils in the southern part of the central russian upland
A sequence of dark gray forest soils developing under a virgin broadleaved forest and under croplands used for 100 and 150 years was studied in the southern part of the forest-steppe zone on the Central Russian UplandyesBS
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