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This book highlights the current state of the art in magnetophoretic circuits and their use in the emerging field of single-cell analysis. This interdisciplinary topic involves many fields of science including cellular biology, drug screening, cancer research, personalized medicine, microfabrication, biomedical microdevices, and lab-on-a-chip. This book not only provides the required fundamental knowledge and background needed in magnetics and the circuit theory but also describes the idea of magnetophoretic circuits as well as the cutting-edge developed technologies. It provides a sufficient background in i) the required theory in magnetics, ii) SCAs in general, iii) the circuit theory, iv) the developed idea of the magnetophoretic circuits, v) the fabrication process and magnetic cell labeling techniques, vi) the magnetophoretic-based SCA tools, and vii) the bio-applications. Methods for performing simulations as well as designing, fabricating, and running experiments are explained. Author of the book is one of the inventors of some of the ideas and the author/co-author of some of the related articles in high-impact journals. The book appeals to the readers interested in clinical applications as well as the ones interested in its technical aspects. It is beneficial for researchers interested in the field of single-cell analysis from various disciplines including biomedical engineering, mechanical engineering, electrical engineering, materials science, and cellular biology.
Solid state physics --- Applied physical engineering --- vaste stof --- materie (fysica) --- Magnetic fields. --- Microfluidics.
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Multiobjective Shape Design in Electricity and Magnetism is entirely focused on electric and magnetic field synthesis, with special emphasis on the optimal shape design of devices when conflicting objectives are to be fulfilled. Direct problems are solved by means of finite-element analysis, while evolutionary computing is used to solve multiobjective inverse problems. This approach, which is original, is coherently developed throughout the whole manuscript. The use of game theory, dynamic optimisation, and Bayesian imaging strengthens the originality of the book. Covering the development of multiobjective optimisation in the past ten years, Multiobjective Shape Design in Electricity and Magnetism is a concise, comprehensive and up-to-date introduction to this research field, which is growing in the community of electricity and magnetism. Theoretical issues are illustrated by practical examples. In particular, a test problem is solved by different methods so that, by comparison of results, advantages and limitations of the various methods are made clear. Topics covered include: Maxwell equations and boundary-value problems; Paretian optimality; static optimisation; game theory; dynamic optimisation; Bayesian imaging. Multiobjective Shape Design in Electricity and Magnetism collects the long-lasting experience matured by the author during his research activity both at the university and in cooperation with industrial laboratories.
Optics. Quantum optics --- Electromagnetism. Ferromagnetism --- Electronics --- elektrodynamica --- elektronica --- magnetisme --- micro-elektronica --- optica --- Electric fields --- Electronic circuit design --- Magnetic fields --- Mathematical optimization --- Mathematical models
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