Heteromagnetic microelectronics: microsystems of active type
Ignatiev, Alexander A.
Lyashenko, Alexander V.
The book is devoted to a new direction - heteromagnetic microelectronics, microsystems of active type, research and development which will lead to the creation of new types of devices, CHIP’S, including intellectual. Polyvalent, multiple parameter magnetosemiconductor microsystems are described; extensive experimental and theoretical results of researches in a range of frequencies up to1000GHz of such microsystems in active modes - generation, amplification, parametrical multiplication and division, direct multipurpose synthesis of signals on a crystal, generation equidistant grids of frequencies, reduction of noise are resulted, and applications of the above are discussed. The book is also based on original material from the author’s programs of designing heteromagnetic microsystems of various types. For the first time the direction of satisfying criteria, burst technologies which can make a subject of discovery, are discussed in great volume. The book demonstrates a direction of development heteromagnetic technologies, including dimensional nanotechnologies, opportunitiesof new development in some new directions including heteromagnetic lasers, heteromagnetic diodes, uniform metrological element base, uniform sensors base and intellectual sensors, microsystems, etc." Includes new, pioneering results of research on magnetoelectronics of millimetric waves Shows how the methods on heteromagnetic microelectronics in the radio range can also be applied to the optical range Provides chapter-end references for additional information on the topics discussed INDICE: Experimental investigations of properties of generative heteromagnetic structures on low, mean and high power levels.- Spectras of periodic and noise signals.- Properties of structures with ferrites of various magnetizations.- Control by energy and spectral characteristics.- Generalization control characteristics in the generative structures.- Processes modeling in heteromagnetic structures.- Heteromagnetic oscillator, single-circuit model.- Multicircuit model of multifunctional heteromagnetic oscillator.- Calculation of parameters of heteromagnetic structures.- Calculation of parameters of transistors, coupling elements, magnetotransistors at frequency band 100 Ghz.- Calculation of thermals conditions of magnetotransitors in continuous and pulsed conditions.- Contagion of external effecting factors.- Multifunctional generation and boost.- Multifunctional frequencies synthesizers.- Vectorial sensors and magnetometers with heteromagnetic interaction.- Low-noise amplifiers on magnetotransistors about 40 Ghz.- Magnetotransistors and technologies.- Nonlineal effects in magnetotransitor and its elements.- Two-blast-furnace model of spheric microresonator in unsatisfied regime.
- ISBN: 978-1-4419-6001-6
- Editorial: Springer
- Encuadernacion: Cartoné
- Páginas: 520
- Fecha Publicación: 01/06/2010
- Nº Volúmenes: 1
- Idioma: Inglés