世界のメタマテリアル(Metamaterial)市場動向と予測(~2025)...市場調査レポートについてご紹介

【英文タイトル】Metamaterials Market by Device Type (Antennas, Superlens, Cloaking Devices, Absorbers), Metamaterial Type (Electromagnetic, Terahertz, Photonic, Tunable, Frequency Selective Surface, Non-Linear), Application & Geography - Trends & Global Forecasts to 2025

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【レポートの概要(一部)】

TABLE OF CONTENTS

1 INTRODUCTION
1.1 OBJECTIVES
1.2 REPORT DESCRIPTION
1.3 MARKETS COVERED
1.4 STAKEHOLDERS
1.5 RESEARCH METHODOLOGY
1.5.1 KEY DATA POINTS TAKEN FROM SECONDARY SOURCES
1.5.2 KEY DATA POINTS TAKEN FROM PRIMARY SOURCES
1.5.3 ASSUMPTIONS MADE FOR THIS REPORT
1.5.4 LIST OF COMPANIES COVERED DURING THE STUDY

2 EXECUTIVE SUMMARY

3 MARKET OVERVIEW
3.1 INTRODUCTION
3.2 MARKET DEFINITION
3.3 HISTORY & EVOLUTION
3.4 MARKET TRENDS
3.5 MARKET DYNAMICS
3.5.1 DRIVERS
3.5.1.1 Variety in design functionalities
3.5.1.2 Large investments by federal agencies
3.5.2 RESTRAINTS
3.5.2.1 Number of fabrication methods
3.5.2.2 Cost of synthesization of metamaterials
3.5.3 OPPORTUNITIES
3.5.3.1 Continuously emerging applications
3.6 BURNING ISSUE
3.6.1 UNAVAILABILITY OF TECHNOLOGY
3.7 WINNING IMPERATIVE
3.7.1 POTENTIAL APPLICATIONS IN TELECOMMUNICATION, AEROSPACE, AND DEFENSE SECTOR
3.8 VALUE CHAIN
3.8.1 RESEARCH INSTITUTES AND LABORATORIES
3.8.2 UNIVERSITIES
3.8.3 GOVERNMENT FUNDED AGENCIES
3.8.4 ORIGINAL DEVICE MANUFACTURERS (ODM)
3.8.5 ORIGINAL EQUIPMENT MANUFACTURERS (OEM)
3.8.6 END-USERS

4 METAMATERIAL MARKET BY TYPE
4.1 INTRODUCTION
4.2 ELECTROMAGNETIC METAMATERIALS
4.2.1 TYPES OF ELECTROMAGNETIC METAMATERIALS
4.2.1.1 Double Negative Metamaterials (DNG)
4.2.1.2 Single Negative Metamaterials (SNG)
4.2.1.3 Electromagnetic Bandgap Metamaterials (EBG)
4.2.1.4 Double Positive Medium (DPS)
4.2.1.5 Bi-Isotropic and Bi-Anisotropic metamaterials
4.2.1.6 Chiral metamaterials
4.2.2 ELECTROMAGNETIC METAMATERIALS MARKET BY APPLICATION
4.2.2.1 Aerospace and Defense applications
4.2.2.2 Medical instrumentation applications
4.2.2.3 Optics applications
4.2.2.4 Sensing applications
4.2.2.5 Telecommunication applications
4.2.3 ELECTROMAGNETIC METAMATERIALS MARKET BY GEOGRAPHY
4.3 TERAHERTZ METAMATERIALS
4.3.1 TERAHERTZ METAMATERIALS MARKET BY APPLICATION
4.3.1.1 Aerospace and Defense applications
4.3.1.2 Medical instrumentation applications
4.3.1.3 Optics applications
4.3.1.4 Sensing applications
4.3.1.5 Telecommunication applications
4.3.2 TERAHERTZ METAMATERIALS MARKET BY GEOGRAPHY
4.4 PHOTONIC METAMATERIALS
4.4.1 PHOTONIC METAMATERIALS MARKET BY APPLICATION
4.4.1.1 Medical instrumentation applications
4.4.1.2 Optics applications
4.4.1.3 Telecommunication applications
4.4.2 PHOTONIC METAMATERIALS MARKET BY GEOGRAPHY
4.5 TUNABLE METAMATERIALS
4.5.1 TUNABLE METAMATERIALS MARKET BY APPLICATION
4.5.1.1 Aerospace and Defense applications
4.5.1.2 Medical instrumentation applications
4.5.1.3 Sensing applications
4.5.1.4 Telecommunication applications
4.5.2 TUNABLE METAMATERIALS MARKET BY GEOGRAPHY
4.6 FREQUENCY SELECTIVE SURFACE (FSS) BASED METAMATERIALS
4.6.1 FSS BASED METAMATERIALS MARKET BY APPLICATION
4.6.1.1 Aerospace and Defense applications
4.6.1.2 Medical instrumentation applications
4.6.1.3 Sensing applications
4.6.1.4 Telecommunication applications
4.6.2 FSS BASED METAMATERIALS MARKET BY GEOGRAPHY
4.7 NON-LINEAR METAMATERIALS
4.7.1 NON-LINEAR METAMATERIALS MARKET BY APPLICATION
4.7.1.1 Aerospace and Defense applications
4.7.1.2 Medical instrumentation applications
4.7.1.3 Optics applications
4.7.1.4 Telecommunication applications
4.7.2 NON-LINEAR METAMATERIALS MARKET BY GEOGRAPHY

5 METAMATERIAL MARKET BY DEVICE TYPE
5.1 INTRODUCTION
5.2 ANTENNAS
5.3 SUPERLENS
5.4 CLOAKING DEVICES
5.5 ABSORBERS

6 METAMATERIAL MARKET BY APPLICATION
6.1 INTRODUCTION
6.2 AEROSPACE & DEFENSE
6.2.1 MARKET BY TYPE
6.2.2 MARKET BY GEOGRAPHY
6.3 MEDICAL INSTRUMENTATION
6.3.1 MAGNETIC RESONANCE IMAGING (MRI)
6.3.2 ULTRASOUND IMAGING
6.3.3 ORAL AND ONCOLOGY
6.3.4 BIOMEDICAL
6.3.4.1 Cancer detection
6.3.4.2 Microwave hyperthermia
6.3.4.3 Wireless strain sensing
6.3.5 MARKET BY TYPE
6.3.6 MARKET BY GEOGRAPHY
6.4 OPTICS
6.4.1 MARKET BY TYPE
6.4.2 MARKET BY GEOGRAPHY
6.5 SENSING
6.5.1 BIOSENSOR
6.5.2 THIN-FILM SENSOR
6.5.3 WIRELESS STRAIN SENSOR
6.5.4 MARKET BY TYPE
6.5.5 MARKET BY GEOGRAPHY
6.6 TELECOMMUNICATION
6.6.1 MARKET BY TYPE
6.6.2 MARKET BY GEOGRAPHY

7 METAMATERIAL MARKET BY GEOGRAPHY
7.1 INTRODUCTION
7.2 NORTH AMERICA
7.2.1 MARKET BY TYPE
7.2.2 MARKET BY APPLICATION
7.3 EUROPE
7.3.1 MARKET BY TYPE
7.3.2 MARKET BY APPLICATION
7.4 APAC
7.4.1 MARKET BY TYPE
7.4.2 MARKET BY APPLICATION
7.5 ROW
7.5.1 MARKET BY TYPE
7.5.2 MARKET BY APPLICATION

8 COMPETITIVE LANDSCAPE
8.1 INTRODUCTION
8.2 COMPETITIVE ANALYSIS
8.3 KEY GROWTH STATEGIES
8.4 ANALYSIS OF NEW PROJECTS & PRODUCT DEVELOPMENT
8.5 ANALYSIS OF PARTNERSHIPS/CONTRACTS
8.6 ANALYSIS OF OTHER DEVELOPMENTS

9 COMPANY PROFILES
(Overview, Products and Services, Financials, Strategy & Development)*
9.1 APPLIED EM
9.2 JEM ENGINEERING
9.3 KYMETA CORPORATION
9.4 METAMAGNETICS
9.5 METAMATERIAL TECHNOLOGIES INC.
9.6 MICROWAVE MEASUREMENT SYSTEMS LLC
9.7 NANOHMICS INC.
9.8 NANOSONIC INC.
9.9 PLASMONICS INC.
9.10 TERAVIEW
*Details on Overview, Products and Services, Financials, Strategy & Development might not be Captured in case of Unlisted Companies.

【レポート販売概要】

■ タイトル:世界のメタマテリアル(Metamaterial)市場動向と予測(~2025)
■ 英文:Metamaterials Market by Device Type (Antennas, Superlens, Cloaking Devices, Absorbers), Metamaterial Type (Electromagnetic, Terahertz, Photonic, Tunable, Frequency Selective Surface, Non-Linear), Application & Geography - Trends & Global Forecasts to 2025
■ 発行日:2014年4月
■ 調査会社:MarketsandMarkets
■ 商品コード:Markets-SE2430
■ 調査対象地域:グローバル
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