Three Dimensional Holographic Optical Elements Based On New Microsystems
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THREE-DIMENSIONAL HOLOGRAPHIC OPTICAL ELEMENTS BASED ON NEW MICROSYSTEMS
Author: Tyurin A.V., Zhukov S.A., Akhmerov A. Yu.
language: en
Publisher: International Science Group
Release Date: 2024-02-28
The technology of creation of three-dimensional holographic optical elements with controlled characteristics on the basis of heterophase microsystem "CaF2 core – AgBr shell", alkaline halide crystals (AHC) and chalcogenide glassy semiconductors (CGS) is proposed. We also consider the applications of holographic optical elements based on threedimensional transmitting diffraction structures for solving some practical problems. For students, graduate students, researchers.
Diffractive Optics and Optical Microsystems
Author: S. Martellucci
language: en
Publisher: Springer Science & Business Media
Release Date: 2013-06-29
Proceedings of the 20th Course of the International School of Quantum Electronics held in Erice, Italy, November 14-24, 1996
Biomechanical Microsystems
This book presents the most important aspects of analysis of dynamical processes taking place on the human body surface. It provides an overview of the major devices that act as a prevention measure to boost a person‘s motivation for physical activity. A short overview of the most popular MEMS sensors for biomedical applications is given. The development and validation of a multi-level computational model that combines mathematical models of an accelerometer and reduced human body surface tissue is presented. Subsequently, results of finite element analysis are used together with experimental data to evaluate rheological properties of not only human skin but skeletal joints as well. Methodology of development of MOEMS displacement-pressure sensor and adaptation for real-time biological information monitoring, namely “ex vivo” and “in vitro” blood pulse type analysis, is described. Fundamental and conciliatory investigations, achieved knowledge and scientific experience about biologically adaptive multifunctional nanocomposite materials, their properties and synthesis compatibility, periodical microstructures, which may be used in various optical components for modern, productive sensors‘ formation technologies and their application in medicine, pharmacy industries and environmental monitoring, are presented and analyzed. This book also is aimed at research and development of vibrational energy harvester, which would convert ambient kinetic energy into electrical energy by means of the impact-type piezoelectric transducer. The book proposes possible prototypes of devices for non-invasive real-time artery pulse measurements and micro energy harvesting.