Ivan Popov
Publications:
Piskun N. V., Lukin A. V., Popov I. A., Shtukin L. V.
Mass Sensing by Symmetry Breaking and Mode Localization in a System of Parametrically Excited Microbeam Resonators
2024, Vol. 20, no. 2, pp. 231-257
Abstract
In this work, we study the nonlinear dynamics of a mode-localized mass detector. A system of
equations is obtained for two weakly coupled beam resonators with an alternating electric current
flowing through them and taking into account the point mass on one of the resonators. The onedimensional
problem of thermal conductivity is solved, and a steady-state harmonic temperature
distribution in the volume of the resonators is obtained. Using the method of multiple scales,
a system of equations in slow variables is obtained, on the basis of which instability zones
of parametric resonance, amplitude-frequency characteristics, as well as zones of attraction of
various branches, are found. It is shown that in a completely symmetrical system (without
a deposited particle), the effect of branching of the antiphase branch of the frequency response
is observed, which leads to the existence of an oscillation regime with different amplitudes in a
certain frequency range. In the presence of a deposited particle, this effect is enhanced, and the
branching point and the ratio of the amplitudes of oscillations of the resonators depend on the
mass of the deposited particle.
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Indeitsev D. A., Zavorotneva E. V., Lukin A. V., Popov I. A., Igumnova V. S.
Nonlinear Dynamics of a Microscale Rate Integrating Gyroscope with a Disk Resonator under Parametric Excitation
2023, Vol. 19, no. 1, pp. 59-89
Abstract
This article presents an analytical study of the dynamics of a micromechanical integrating
gyroscope with a disk resonator. A discrete dynamic model of the resonator is obtained, taking
into account the axial anisotropy of its mass and stiffness properties, as well as the action of the
electrical control system of oscillations. An analysis of the spectral problem of disk vibrations
in the plane is carried out. The nonlinear dynamics of the resonator in the regimes of free
and parametrically excited vibrations are investigated. In the mode of parametric oscillations,
qualitative dependencies of the gyroscopic drift on the operating voltage, angular velocity and
parameters of defects are obtained.
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