F. V. Dolzhanskii scite author profile

Forced shear flows in a thin layer of an incompressible viscous fluid are studied experimentally. Streak photographs are used to obtain the stream function of vortical flow patterns arising after the primary shear flow loses stability. Various flow characteristics are determined and results are compared to the stability theory of quasi-two-dimensional flows. The applicability of the quasi-two-dimensional approximation is directly verified and the possibility of reconstruction of the driving force from the secondary flow pattern is demonstrated.

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Stability and vortex structures of quasi-two-dimensional shear flows

Dolzhanskii¹,

Krymov²,

Manin³

1990

Usp. Fiz. Nauk

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Fundamentals of Geophysical Hydrodynamics

Dolzhanskii¹,

Gledzer²,

Gledzer³

et al. 2013

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Stability and vortex structures of quasi-two-dimensional shear flows

Dolzhanskii¹,

Krymov²,

Manin³

1990

Sov. Phys. Usp.

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We demonstrate the novel and compact implementation of a monostable-to-bistable transition logic element (MOBILE) using only three resonant tunneling diodes (RTDs). The proposed circuit consists of only three RTDs and one resistor, with the configuration of a series-connected RTD pair and a series-connected RTD and resistor. The RTD pair is used for the MOBILE core circuit, and the RTD and resistor pair is used for current modulation. We also designed a frequency divider using the proposed MOBILE circuits. Test circuits are fabricated using InP-based RTD technology. The operation of the fabricated circuits is demonstrated up to 12.5 Gbits/s.

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An advanced investigation of interaction of allocated quasi-two-dimensional vortices

Danilov

Dolzhanskii

Dovzhenko

et al. 1996

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This work should be regarded as a natural development of the investigations by Dolzhanskii, Krymov and Manin [Sov. Phys. Usp. 33, 495-520 (1990); J. Fluid Mech. 241, 705-722 (1992); Russ. J. Comput. Model. 1, 107-118 (1993)] of quasi-two-dimensional (Q2D) flows in which the linear and weakly nonlinear stability theory based on the 2D hydrodynamic equations with the Rayleigh (Ekman) friction term imitating the influence of the bottom on the motion of upper fluid layers was corroborated with laboratory and observational data. The applicability of the Q2D approach to describe self-oscillating supercritical regimes was even more vague as Batchaev's experiments [Izv. AN SSSR Fiz. Atmos. Okeana 25, 434-439 (1989); Z. Prikl. Mech. Tech. Fiz., No. 4, 85-91 (1990)] on modeling the four vortex self-oscillations in a thin fluid layer by the magnetohydrodynamics method (the so called hydrodynamical clock [Obukhov, Dolzhanskii and Batchaev, Topological Fluid Mechanics, Proceedings of the IUTAM Symposium, Cambridge, 13-18 August 1989 (Cambridge University Press, Cambridge, 1989), pp. 304-314]) did not find an appropriate theoretical explanation. To remove earlier uncontrolled effects the supplementary detailed measurements of the experimental flow characteristics were implemented, including the spatial spectral composition of the external vorticity sources and free surface 2D velocity fields. Satisfactory agreement is found between experimentally measured flow characteristics and the results of numerical simulations. The frequency of self-oscillations was found to be greatly susceptible to the spectral composition of the external vorticity sources and fluid layer thickness, which should be taken into account in designing laboratory experiments to simulate the natural Q2D processes observed in the ocean and atmosphere. Applicability conditions of the Q2D approach and the influence of geometrical parameters of vortices on their nonlinear interplay are also discussed. (c) 1996 American Institute of Physics.

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F. V. Dolzhanskii

An advanced experimental investigation of quasi-two-dimensional shear flow

Stability and vortex structures of quasi-two-dimensional shear flows

Fundamentals of Geophysical Hydrodynamics

Stability and vortex structures of quasi-two-dimensional shear flows

An advanced investigation of interaction of allocated quasi-two-dimensional vortices

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