Book contents
- Frontmatter
- Contents
- Preface
- 1 Introduction
- 2 The constitutive relation
- 3 Review of quantum mechanics
- 4 The susceptibility tensors
- 5 Symmetry properties
- 6 Resonant nonlinearities
- 7 Wave propagation and processes in nonlinear media
- 8 Dynamic optical nonlinearities in semiconductors
- 9 The optical properties of artificial materials
- Appendices
- Glossary of mathematical symbols
- Bibliography
- Subject index
6 - Resonant nonlinearities
Published online by Cambridge University Press: 05 June 2012
- Frontmatter
- Contents
- Preface
- 1 Introduction
- 2 The constitutive relation
- 3 Review of quantum mechanics
- 4 The susceptibility tensors
- 5 Symmetry properties
- 6 Resonant nonlinearities
- 7 Wave propagation and processes in nonlinear media
- 8 Dynamic optical nonlinearities in semiconductors
- 9 The optical properties of artificial materials
- Appendices
- Glossary of mathematical symbols
- Bibliography
- Subject index
Summary
In earlier chapters we have considered in detail the susceptibility formalism of nonlinear optics, which is perhaps the most familiar approach and has a wide range of application. Starting from the constitutive relations of Chapter 2, the susceptibility formalism is quite general. In many practical applications, a particular phenomenon can be described accurately by a single order of nonlinearity, and the susceptibility then provides a useful and convenient description. However, this is not always the case. Some of the most interesting phenomena in nonlinear optics involve close resonance with the transition frequencies of the medium, and perhaps also the use of very intense optical fields. As remarked in §4.5, in these circumstances the resonant susceptibilities display mathematical divergences which are clearly unphysical. Strictly, these divergences occur only because higher-order nonlinearities have been neglected. Successive orders of nonlinearity take into account such effects as saturation, power broadening and level shifts (optical Stark effect). For intense fields or very close resonance, the contributions from several orders of nonlinearity may be comparable in magnitude. Therefore, despite its generality, the susceptibility formalism does not necessarily provide the most practical approach for the description of resonant processes.
This chapter is concerned with the problem of deriving alternative and more manageable descriptions of resonant nonlinear processes, illustrated by examples. For much of the chapter, the nonlinear medium is treated as a two-level system (described in §6.2).
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- The Elements of Nonlinear Optics , pp. 150 - 210Publisher: Cambridge University PressPrint publication year: 1990