Study of Inductive Reactance of a Micro Strip Line Structure with The Width Metal Strip

Abstract

In the field of high energy physics, it is often necessary to accelerate electron beams to velocities close to that of velocity of light. Due to interaction of electron beam with electromagnetic waves, kinetic energy of electron is increased. Microwaves have become very powerful experimental tools for study of some of the basic properties of materials. There are different structures for the propagation of electromagnetic powers in different modes. Also, there are various devices for sending massage or signals from one place to another remote place. In the age of Moughal period pigeons were employed for sending massage. Now in the age of modern science & technology, radios, television, telegraphs, satellite, cell phones and mobiles are used for sending the message from one place to other places how far away the Microwave Integrated circuits (MIC’S) have changed these systems in the present days by replacing large scale waveguides and co-axial component arrays to small light weight assemblies. These introduced microwave striplines, microslotlines, coplanar strip lines and coplanar waveguide etc. The design system used for these circuits has also changed from the early “cut & try” methods, using “ruler and knife” to the computer aided design (CAD). The Present Paper aims at the study 0f inductive property developed due to propagation of electromagnetic waves through the structure and its dependence on the width of the metal strip and other factors. Such study involves the characteristics parameters such as characteristics impedence and phase velocity and their variations with width metal strip and its utility in designing different planer devices.