Solitary wave characteristics on the fine structure of the mesospheric sporadic sodium layer

Abstract

The so-called sporadic sodium layers (SSLs or Na S ) are proposed to be strongly related to wave fluctuations. The solitary wave is a particular solution of the partial differential equation whose energy travels as a localized wave packet. A soliton, on the other hand, is a special type of solitary wave that exhibits a particle-like behavior with a strong stable form. For the first time, the solitary wave theory has been used in this research to study the fine structure of SSL/Na S . We performed soliton fitting processes on the observed data from the Andes Lidar Observatory and found out that 24/27 Na S events had exhibited similar features/characteristics to a soliton. Time series of the net anomaly of the Na S revealed the same variation process to the solution of a generalized five-order KdV equation. Our results, therefore, suggested that the Na S phenomenon would be a pertinent tracer for non-linear wave studies in the atmosphere.