Career

lexander obtained a doctoral in physical and mathematical sciences in 1990 to the national Academy of the sciences of Belarus.

Works

• article

  • Acoustic response from a bubble pulsating near a fluid layer of finite density and thickness
  • Theoretical investigation of shear stress generated by a contrast microbubble on the cell membrane as a mechanism for sonoporation
  • New theoretical models for lipid‐shelled ultrasound contrast agents
  • Cleaning of semiconductor substrates by controlled cavitation
  • Maxwell rheological model for lipid-shelled ultrasound microbubble contrast agents
  • Spatio-temporal dynamics of an encapsulated gas bubble in an ultrasound field
  • Equations of coupled radial and translational motions of a bubble in a weakly compressible liquid
  • Time delays in coupled multibubble systems (L)
  • Cavitation bubble-driven cell and particle behavior in an ultrasound standing wave
  • Mathematical model for collective bubble dynamics in strong ultrasound fields
  • Doinikov Alexander A. Translational motion of a spherical bubble in an acoustic standing wave of high intensity
  • Viscous effects on the interaction force between two small gas bubbles in a weak acoustic field
  • Translational motion of two interacting bubbles in a strong acoustic field
  • Influence of neighboring bubbles on the primary Bjerknes force acting on a small cavitation bubble in a strong acoustic field
  • Bjerknes forces between two bubbles in a viscous fluid
  • Effects of the second harmonic on the secondary Bjerknes force
  • Acoustic radiation forces on bubbles in real fluids
  • Acoustic radiation force on a bubble: Viscous and thermal effects
  • Radiation forces between two bubbles in a compressible liquid
  • Dissipative effects on Bjerknes forces between two bubbles
  • Acoustic radiation force on a spherical particle in a viscous heat-conducting fluid. The third. Force on a liquid drop
  • Acoustic radiation force on a spherical particle in a viscous heat-conducting fluid. The second. Force on a rigid sphere
  • Acoustic radiation force on a spherical particle in a viscous heat-conducting fluid. I. General formula
  • Theory of acoustic radiation pressure for actual fluids
  • On the radiation pressure on small spheres
  • On the ‘‘bubble grapes’’ induced by a sound field
  • Mutual interaction between a bubble and a drop in a sound field
  • Acoustic radiation force on a rigid sphere in a viscous heat‐conducting fluid
  • On the mutual interaction of two gas bubbles in a sound field
  • Radiation force due to a spherical sound field on a rigid sphere in a viscous fluid

Connections

Father:

Anatoly

Mother:

Aleftina