|Statement||prepared by NDRC, Division 14, Radiation Laboratory, Massachusetts Institute of Technology.|
|LC Classifications||TK6575 .M318|
|The Physical Object|
|Pagination||iv, 188 p.|
|Number of Pages||188|
|LC Control Number||50060613|
Microwave technology can significantly reduce sample turnaround times, enhance quality, and reduce hazardous wastes when compared to bench or automated methods. In Microwave Techniques and Protocols, Richard Giberson and Richard Demaree, Jr., have collected a wide range of these time-savingBrand: Springer Shop. Additional Physical Format: Online version: Mooijweer, H. Microwave techniques. London, Macmillan, (OCoLC) Document Type: Book: All Authors / Contributors. Microwave technology can significantly reduce sample turnaround times, enhance quality, and reduce hazardous wastes when compared to bench or automated methods. In Microwave Techniques and Protocols, Richard Giberson and Richard Demaree, Jr., have collected a wide range of these time-saving techniques for processing biological samples for. Book • Authors: Microwave radiation and detection techniques are being developed for the monitoring, imaging, and sensing of biological and physiological function of the human body. Select Chapter 12 - Chemical Applications of Microwaves. Book chapter Full text access.
Presents time-saving microwave techniques for processing biological samples for evaluation by different microscopic methods. This work provides reproducible protocols including both classic methods and techniques such as in vivo labeling, formalin fixation of fresh tissue, vacuum processing, and processing for scanning electron microscopy. Handbook of Microwave Component Measurements: with Advanced VNA Techniques - Ebook written by Joel P. Dunsmore. Read this book using Google Play Books app on your PC, android, iOS devices. Download for offline reading, highlight, bookmark or take notes while you read Handbook of Microwave Component Measurements: with Advanced VNA Techniques. Radiation & Microwave Techniques This book is an exclusive material for Engineering Degree Subject. The book is written by eminent authors of TechKnowledge Publications with more than 20 years experience in the field of book writing. Features: i) Strictly as per the latest syllabus of University. Fundamentals of Microwave and RF Design enables mastery of the essential concepts required to cross the barriers to a successful career in microwave and RF design. Extensive treatment of scattering parameters, that naturally describe power flow, and of Smith-chart-based design procedures prepare the student for success. The emphasis is on design at the module level and on covering the whole Author: Michael Steer.
This chapter discusses about methods used in simulation and modeling of radio frequency (RF)/microwave circuits and components. The main topic that is discussed here is about one of the most powerful methods, that is, artificial neural networks. In this chapter, different types of neural network such as dynamic and recurrent neural networks will be discussed. Other techniques that are popular. Much other information is covered in this text as well, so it is one of the books that all RF and microwave engineers should own. Other important sources that cover certain special topics at greater depth are: G. H. Bryant, Principles of Microwave Measurements. Stevenage, UK: Peter Peregrinus, [for general measurement techniques]. Microwave and RF Design: Radio Systems is a circuits- and systems-oriented approach to modern microwave and RF systems. Sufficient details at the circuits and sub-system levels are provided to understand how modern radios are implemented. Design is emphasized throughout. The evolution of radio from what is now known as 0G, for early radio, through to 6G, for sixth generation cellular radio, . is a Distinguished Microwave Lecturer of the IEEE Microwave Theory and Techniques Society, and a Fellow of the IEEE. Mohamed Sayed is the Principal Consultant for Microwave and Millimeter Wave Solu-tions, and has nearly thirty years’ experience of developing microwave and millimeter wave systems for Hewlett-Packard Co. and Agilent.