Nonlinear nano Optics and its Application: Bond Model for Semiconductor Characterization

TL;DR

This paper reviews the bond model in nonlinear nano optics, explaining its fundamentals and potential applications in semiconductor surface analysis and biosensing.

Contribution

It introduces the bond model as a new approach for understanding and applying nonlinear optics in semiconductor characterization.

Findings

Bond model offers a better physical understanding of nonlinearity.

Potential applications include surface reconstruction and biosensor monitoring.

Framework for future development of the bond model in nano optics.

Abstract

This paper begins with a brief history of nonlinear optics and how the bond model emerges as a need to obtain a better physical picture of nonlinearity. A description about the possible application of the bond model is presented afterward followed by a theoretical explanation of its fundamentals. The possibility to develop this model for future application such as surface reconstruction characterization, real time surface biosensor monitoring, and semiconductor surface bandgap determination is also presented at the end.