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The present paper looks into the Magnetic Flux Compressors (MFC) from the point of view of their integration with high power microwave sources. First of all the typical constructions and principals of there operations will be considered. After that the possibilities of production of video impulse will be discussed and MFC as a pulsed power system for feeding relativistic microwave generators will be described.
Megagauss Magnetic Field Generation & Pulsed Power Applications: Part I
The work reported here is a JASON IR & D project. It began when the authors attended a talk by Professor Gregory Benford, of the University of California at Irvine, on experimental simulation of high-energy astrophysical processes. It seemed to us that the experimental device described by Benford--which directs a relativistic electron beam into a plasma--might be modified to become a high-power (order of gigawatts) generator usable from microwave frequencies up to the IR region. The prospects are that such a generator could have reasonable wall-plug efficiency, along with a size and weight compatible with some mobility. Assuming that such improvements on the original Benford device work as intended, the question then is: What applications are there? We do not address this issue in any detail here. In fact, one of the major reasons for issuing this report is to stimulate thinking about the question of applications.
Explosive pulsed power generators are devices that either convert the chemical energy stored in explosives into electrical energy or use the shock waves generated by explosives to release energy stored in ferroelectric and ferromagnetic materials. The objective of this book is to acquaint the reader with the principles of operation of explosive generators and to provide details on how to design, build, and test three types of generators: flux compression, ferroelectric, and ferromagnetic generators, which are the most developed and the most near term for practical applications. Containing a considerable amount of new experimental data that has been collected by the authors, this is the first book that treats all three types of explosive pulsed power generators. In addition, there is a brief introduction to a fourth type ix explosive generator called a moving magnet generator. As practical applications for these generators evolve, students, scientists, and engineers will have access to the results of a considerable body of experience gained by almost 10 years of intense research and development by the authors.
Mesyats' Pulsed Power provides in-depth coverage of the generation of pulsed electric power, electron and ion beams, and various types of pulsed electromagnetic radiation. The electric power that can be produced by the methods described ranges from 106 to 1014W for pulse durations of 10-10-10-7s. The book consists of nine parts containing 28 chapters, which deal with various aspects of pulsed power and high-power electronics and cover a concise theory of electric circuits as applied to nanosecond pulse technology; physics of fast processes occurring in electrical discharges in vacuum, gases, and liquids; phenomena in long lines; mechanisms of operation and designs of high-power gas-discharge, plasma, and semiconductor closing and opening switches as well as of high-power electric pulse generators using these switches; solid-state (semiconductor and magnetic) methods of production and transformation of nanosecond high-power pulses; and methods of production of high-power pulsed electron and ion beams. The closing part describes methods applied to produce high-power nanosecond pulsed X-rays, laser beams, microwaves, and ultrawideband electromagnetic radiation. This all-embracing book covers gas, laser, semiconductor, and magnetic circuit elements, the phenomenon of explosive electron emission discovered by the author, diodes of various types, including semiconductor diodes based on the SOS effect discovered with participation of the author, and methods of production of various types of high-power pulsed radiation.