Sb95667
.pdfCONCLUSION
The methods of nonlinear optics penetrate to all fields of traditional optics and are, at the same time, the background for some absolutely new directions of optics’ development – for instance, of nonlinear ro tation of polarization plane, of nonlinear scattering, of nonlinear diffraction, of nonlinear magneto-optics etc. The growth of the light field intensity brings us new and new effects.
The successes in nonlinear optics has also stimulated the new directions of studies in plasma physics, in acoustics, in radiophysics, and, in general, in theory of nonlinear waves. The nonlinear optics has also given the birth to new directions in material science, and especially in solid state physics. One of the main goals of the modern basic science is the proof of our general understanding of the Universe basics, which is promised by the future achievement of the vacuum nonlinearity.
41
Content |
|
INTRODUCTION ................................................................................................. |
3 |
1. BASIC EQUATIONS OF THE NONLINEAR OPTICS ................................. |
3 |
1.1. Dielectric polarization in the static electric field ........................................ |
3 |
1.2. Dielectric polarization in the optical electric field ...................................... |
6 |
1.3. Nonlinear susceptibility tensor.................................................................... |
9 |
2. NONLINEAR-OPTICAL CONVERSION OF OPTICAL RADIATION |
|
FREQUENCY...................................................................................................... |
12 |
2.1. Second harmonics generation.................................................................... |
14 |
2.2. Other schemes of frequency conversion ................................................... |
19 |
3. STIMULATED SCATTERING OF LIGHT................................................... |
23 |
3.1. Spontaneous and stimulated scattering of light......................................... |
23 |
3.2. Stimulated Raman scattering..................................................................... |
27 |
3.3. Stimulated Brillouin scattering.................................................................. |
32 |
3.4. Nonlinear effects, accompanying the stimulated scattering...................... |
38 |
CONCLUSION.................................................................................................... |
41 |
42
V. Yu. Venediktov
Fundamentals of nonlinear optics
Tutorial
Редактор Ю. В. Филатов
–––––––––––––––––––––––––––––––––––––––––––––––––––––
Подписано в печать 27.11.17. Формат 60 × 84 1/6.
Бумага офсетная. Печать цифровая. Печ. л. 2,5. Гарнитура «Times New Roman».Тираж 45 экз. Заказ 147.
––––––––––––––––––––––––––––––––––––––––––––––––––––––
Издательство СПбГЭТУ «ЛЭТИ»
197376, Санкт-Петербург, ул. Проф. Попова, 5