Quasi-Optical Control of Intense Microwave Transmission

Proceedings of the NATO Advanced Research Workshop on Quasi-Optical Control of Intense Microwave Transmission Nizhny, Novgorod, Russia 17 - 20 February 2004

• Author(s): Jay L. Hirshfield, Michael I. Petelin,
• Publisher: Springer Science & Business Media
• Pages: 400
• ISBN_10: 140203637X
  ISBN_13: 9781402036378
  
• Language: en
• Categories: Science / Physics / Electricity , Science / Physics / Electromagnetism , Science / Physics / Magnetism , Science / Physics / Optics & Light , Science / Physics / General , Technology & Engineering / Electrical , Technology & Engineering / Electronics / General , Technology & Engineering / Microwaves , Technology & Engineering / Radio , Technology & Engineering / Telecommunications ,

Description:... This volume assembles the texts of presentations given at the NATO-sponsored Advanced Research Workshop on Quasi-Optical Transmission of High-Power Microwaves, held in Nizhny Novgorod, Russia in February 2004. The presentations bridge a wide range of technical areas, but share common tools of analysis and design. Applications of quasi-optics extend to the use of high-power microwaves—including millimeter-waves— for radar and communications (especially deep space millimeter-wave systems, space debris detection radar, and radar for the detection of small targets moving over heavy clutter); particle accelerators (especially for a future high-acceleration-gradient electron-positron collider); plasma research (especially for controlled nuclear fusion and waste decontamination); and material processing (in particular, ceramic sintering with millimeter-waves, and the coating of metal surfaces with protective dielectric films.). Scientists and engineers working in any of these areas should benefit significantly from exposure to this broad range of timely expositions authored by many of the world’s foremost experts in these fields. The editors, themselves being original, principal proponents of many of the concepts discussed here, have integrated important contributions from many fields into a cohesive entity.