In the article the modern state of the electromechanical science is briefly reviewed, and certain prospective application fields of the newest achievements in nanoscience and nanotechnology are considered in those areas of human vital activities (from medicine up to space exploration), the scientific-technical progress in which is based on a comprehensive use of the electromechanical energy converters. The research considers some of the key issues (topical points, nodal points) of the generalized (combined) physical and mathematical modeling of microminiature and nanoelectomechanical systems (MEMS and NEMS). A new generalized approach is proposed to the research of the dynamic and energetic performance of MEMS and NEMS, as complex dynamic systems with binary conjugated subsystems. The presented theoretical principles and models are used as the basis for research of the electrophysical characteristics of the biological nanostructures.
May 19, 2021
Feb 27, 2020
|Several Issues of Generalized Physical and Mathematical Modeling of Micro- and Nano-Electromechanical Systems (MEMS and NEMS)||May 19, 2021|
T. A. Ishkhanyan V. A. Manukyan A. H. Harutyunyan A. M. Ishkhanyan
Sargsyan , H. P.
Mkrtchyan, A. H. Saharian, A. A.
Atanesyan, A. K.