カゴの中を見る

商品数:0点

合計:0円

カゴの中を見る

商品を探す

商品カテゴリから選ぶ

商品名を入力

検索結果で出ない商品は

お問い合わせ下さいませ

商品カテゴリ

分野別

商品コード: 9781510613584

Infrared Antennas and Resonant Structures

販売価格(税込10%): 11,321 円
種類別の販売価格、在庫状況を見る
在庫区分
数  量

カゴに入れる

商品おすすめポイント

書名

Infrared Antennas and Resonant Structures
著者・編者 Alda, J. & Boreman, G.D.
出版社/発行元 SPIE
発行年/月 2017年7月   
装丁 Softcover
ページ数/巻数 166 ページ
ISBN 978-1-5106-1358-4
発送予定 海外倉庫よりお取り寄せ 2-4週間以内に発送します

 

 

Description

 

Infrared antennas and resonant structures are examples of the advances achieved during the last two decades based on the electromagnetic interaction of light and a wise combination of material and geometry. These interesting devices can be applied to a variety of fields in optics and photonics, where infrared detection can now overcome the limitations of previous technologies. This book starts with the basics of electromagnetism applicable to the interaction of light with metallic structures having a size comparable to the wavelength, then discusses the special behavior of metals; how to model, design, and validate through simulation of the proposed geometries; how to fabricate the most promising device designs; and various characterization techniques. Then follows a description of the two main types of devices developed by the authors: those producing an electric signal (antenna-coupled devices) and those changing the parameters of the light incident on the resonant elements (resonant optics). The book concludes by discussing current and potential challenges in new research and future devices.

 

 

Contents:

 

1 Introduction
1.1 Historical Background
1.2 Organization of the Text
2 Basic Electromagnetism
2.1 The Drude?Lorentz Model
2.1.1 Metals
2.1.2 Relation between the index of refraction and electric permittivity
2.1.3 Conductivity
2.1.4 Skin depth and impendances
2.1.5 Plasmons
2.2 Impendance Matching
2.2.1 Impedance definitions from the energy bucket
2.2.2 Equivalent circuit for antenna-coupled diodes
2.2.3 Resonant structures
3 Modeling, Design, and Simulation
3.1 Material Fabrication Constraints
3.1.1 The role of the substrate
3.1.2 Material characterization
3.2 Classical Designs
3.2.1 Slot antennas
3.2.2 Diffractive optical elements and antennas
3.3 Computational Electromagnetism. Methods and Approaches
3.3.1 Green's tensor methods
3.3.2 Method of moments (MoM)
3.3.3 Multiple multipole (MMP) method
3.3.4 Transmission line matrix (TLM) method
3.3.5 Finite differences in the time domain (FDTD) method
3.3.6 Finite element method (FEM)
3.3.7 Material considerations and computational implementation
3.4 Multiphysics Approach
4 Fabrication
4.1 Optical and Electron-beam Lithography
4.1.1 Choice of resist
4.1.2 Patterning processes
4.2 Thin-Film Deposition Methods
4.2.1 Evaporation
4.2.2 Sputtering
4.2.3 Chemical vapor deposition
4.3 Etching
5 Characterization and Testing of Infrared Antennas
5.1 Spatial Responsitivity
5.1.1 Probe beam characterization
5.1.2 Experimental setup
5.2 Far-Field Measurement. Angular Response
5.3 Spectral Selectivity
5.4 Polariazation Selectivity
5.5 Noise in Antenna-Coupled Detectors
5.6 Signal-to-Noise Ratio and Specific Detectivity, D
5.7 Biasing Electronics and Modulation
5.8 Near-Field Measurements using s-SNOM Techniques
6 Antenna-Coupled Detectors
6.1 Transduction Mechanisms in Antenna-Coupled Devices
6.1.1 Diodes
6.1.2 Bolometers
6.1.3 Thermoelectric
6.2 Phased-Array Antennas and Transmission Lines
6.3 Rectennas and Energy Harvesters
7 Resonant Optics
7.1 Frequency-Selective Surfaces
7.1.1 Spectral response of frequency-selective surfaces
7.2 Resonant Optical Retarders
7.3 Resonant Phase Plates
7.3.1 Aberrations and MTF in reflectarrays
8 Conclusions and Open Issues

種類別の販売価格、在庫状況を見る
在庫区分
数  量

カゴに入れる

この商品に対するお客様の声

 

 

mitsumori

見積書をお送り致します

 

 

  新刊案内など配信中!!

 

このページのTOPへ