A single column plasma photonic crystal (SC-PPC)

In this paper, a reconfigurable one-dimensional single column plasma photonic crystal (SC-PPC) has been investigated. The SC-PPC is a glass column containing standing plasma density patterns (SPDPs) called plasma blobs, where its density varies sinusoidally along the column axis. It appears like a collinear array of the plasma blobs which is produced by having the critical combination of input RF power and gas pressure in a column. The numbers of blobs and plasma density can be controlled by RF power and gas pressure. The value of plasma density is measured for the different numbers of plasma blobs formation by using the experimental setup. These measured data are utilized in the modeling and simulation of SC-PPC for the photonic bandgap (PBG) analysis. The simulation outcomes reveal that the SC-PPC induces PBGs that can be reconfigured with plasma density, lattice constant, and numbers of plasma blobs. This paper explicitly investigates the PBG analysis by modeling two cases, where the plasma density N e = 2.45 × 10 16 m − 3 with five plasma blobs and N e = 9 × 10 16 m − 3 with six plasma blobs are considered. The obtained outcomes verify the reconfigurable characteristics of SC-PPC.