Ebook: Optical Response of Nanostructures: Microscopic Nonlocal Theory
Author: Professor Dr. Kikuo Cho (auth.)
- Tags: Optics Optoelectronics Plasmonics and Optical Devices, Optical and Electronic Materials, Complexity
- Series: Springer Series in Solid-State Sciences 139
- Year: 2003
- Publisher: Springer-Verlag Berlin Heidelberg
- Edition: 1
- Language: English
- pdf
This book gives a theoretical description of linear and nonlinear optical responses of matter with special emphasis on the microscopic and "nonlocal" nature of resonant response. The response field and induced polarization are determined self-consistently in terms of simultaneous linear or nonlinear polynomial equations. This scheme is a general one with its position between QED and macroscopic response theory, but is most appropriate for determining the dependence of optical signals on the size, shape, and internal structure of a nanostructure sample. As a highlight of the scheme, the multi-resonant enhancement of the DFWM signal is described together with its experimental verification.
This book gives a theoretical description of linear and nonlinear optical responses of matter with special emphasis on the microscopic and "nonlocal" nature of resonant response. The response field and induced polarization are determined self-consistently in terms of simultaneous linear or nonlinear polynomial equations. This scheme is a general one with its position between QED and macroscopic response theory, but is most appropriate for determining the dependence of optical signals on the size, shape, and internal structure of a nanostructure sample. As a highlight of the scheme, the multi-resonant enhancement of the DFWM signal is described together with its experimental verification.
This book gives a theoretical description of linear and nonlinear optical responses of matter with special emphasis on the microscopic and "nonlocal" nature of resonant response. The response field and induced polarization are determined self-consistently in terms of simultaneous linear or nonlinear polynomial equations. This scheme is a general one with its position between QED and macroscopic response theory, but is most appropriate for determining the dependence of optical signals on the size, shape, and internal structure of a nanostructure sample. As a highlight of the scheme, the multi-resonant enhancement of the DFWM signal is described together with its experimental verification.
Content:
Front Matter....Pages I-IX
Introduction....Pages 1-12
Formulation of Nonlocal Response Theory....Pages 13-32
Some General Features of Nonlocal Response Theory....Pages 33-71
Application: Linear Response....Pages 73-135
Application: Nonlinear Response....Pages 137-161
Back Matter....Pages 163-174
This book gives a theoretical description of linear and nonlinear optical responses of matter with special emphasis on the microscopic and "nonlocal" nature of resonant response. The response field and induced polarization are determined self-consistently in terms of simultaneous linear or nonlinear polynomial equations. This scheme is a general one with its position between QED and macroscopic response theory, but is most appropriate for determining the dependence of optical signals on the size, shape, and internal structure of a nanostructure sample. As a highlight of the scheme, the multi-resonant enhancement of the DFWM signal is described together with its experimental verification.
Content:
Front Matter....Pages I-IX
Introduction....Pages 1-12
Formulation of Nonlocal Response Theory....Pages 13-32
Some General Features of Nonlocal Response Theory....Pages 33-71
Application: Linear Response....Pages 73-135
Application: Nonlinear Response....Pages 137-161
Back Matter....Pages 163-174
....
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