Metamaterials Market by Device Type, Metamaterial Type, Application & Geography - Trends & Global Forecasts to 2025

Metamaterials Market by Device Type, Metamaterial Type, Application & Geography - Trends & Global Forecasts to 2025

M&M, Date of Publication: Apr 22, 2014, 133 Pages
US$4,650.00
MA-SE2430

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

 
Metamaterials are artificial materials engineered to provide physical properties which are not easily available in nature. They are basically formed from the combination of a large number of elements ranging from metals to plastic, all arranged in a periodical pattern which enables them to have superior and exceptional characteristics over the conventional materials. Artificial materials gain these exceptional properties from the structure rather than the composition of inhomogeneties infused in them. The major advantage that artificial materials have over their conventional counterparts is that the conventional materials derive from their electromagnetic characteristics properties of atoms and molecules whereas, metamaterials allow us to design our own atoms, thus, enabling us to access new functionalities such as invisibility and imaging with unlimited resolution. This report primarily deals with global metamaterials market and its trend over the next twelveyears.
 
Metamaterials promise new options to influence all types of fields and waves including electric and magnetic fields, the electromagnetic spectrum (radio frequencies to light), and acoustics. There are diverse potential applications in devices such as antennas, cloaking devices, superlens, absorbers, and fiber lasers, out of which antennas and absorbers will be the first ones to be developed and commercialized. Besides, metamaterials also show promising growth in optical and microwave applications. As the density of artificial materials is low compared to their conventional counterparts,the components, devices, and systems made by them can be lightweight and small, while at the same time enhancing component and system performance.
Almost all new technologies have potential limitations and barriers to their exploitation; for metamaterials, these include bandwidths, losses and suitable constituent materials at all wavelengths, and fabrication losses. Bandwidthsare being increased using tunable materials while losses are being reduced with active gain media. The impact of metamaterials on potential applications is greatly enhanced by the advances in combination with its constituents.
 
This research report covers the entire spectrum of metamaterials used across various applications such as aerospace anddefense, medical instrumentation, optics, sensing, and telecommunication. The entire market has been segmented by the type of artificial materials into electromagnetic, terahertz, photonic, tunable, non-linear, and frequency selective surface (FSS) based metamaterials. Out of these, electromagnetic metamaterials are the fastest growing type and the largest in terms of global consumption with a market share of 40% to 45% by 2025. This report also covers the various metamaterial devices such as antennas, superlens, cloaking devices, absorbers, and microwave/optical devices. In terms of devices, antennas are the market leader and will continue to do so over the coming years.The different geographical regions covered in this report include North America, Europe, Asia Pacific (APAC), and Rest of the World (ROW), with North America as the expected market leader followed by Europe.
 
The report also highlights all the factors currently driving the market as well as the restraints and opportunities for the global market. It also deals with the burning issues pertaining to the market andthe winning imperatives for players to gain a competitive edge in the industry. The report profiles all the major companies involved in this segment covering their entire product offerings, financial details, strategies, and recent developments.
 

TABLE OF CONTENTS

1 Introduction (Page No. - 19)
    1.1 Key Take-Aways
    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 Study

2 Executive Summary (Page No. - 28)

3 Market Overview (Page No. - 33)
    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 Investment 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 Market By Metamaterial Type (Page No. - 45)
    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 Market By Device Type (Page No. - 87)
    5.1 Introduction
    5.2 Antennas
    5.3 Superlens
    5.4 Cloaking Devices
    5.5 Absorbers

6 Market By Application (Page No. - 94)
    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 Market By Geography (Page No. - 111)
    7.1 Introduction
    7.2 North America
          7.2.1 Marketbytype
          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 (Page No. - 123)
    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 (Page No. - 133)
    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
 
 
List of Tables (69 Tables)

Table 1 General Assumptions, Terminologies, and Applications Keynotes
Table 2 List of Companies Covered
Table 1 Market Value, By Type, 2013-2025 ($Million)
Table 2 Market Value, By Application, 2013-2025 ($Million)
Table 3 Market Value, By Geography, 2013-2025 ($Million)
Table 4 Market Value, By Type, 2013-2025 ($Million)
Table 5 Electromagnetic Metamaterials Market Value, By Application, 2013-2025 ($Million)
Table 6 Aerospace & Defense: Electromagnetic Market Value, By Geography, 2013-2025 ($Million)
Table 7 Medical Instrumentation: Electromagnetic Market Value, By Geography, 2013-2025 ($Million)
Table 8 Optics: Electromagnetic Market Value, By Geography, 2013-2025 ($Million)
Table 9 Sensing: Electromagnetic Market Value, By Geography, 2013-2025 ($Million)
Table 10 Telecommunication: Electromagnetic Market Value, By Geography, 2013-2025 ($Million)
Table 11 Electromagnetic Metamaterials Market Value, By Geography, 2013-2025 ($Million)
Table 12 Terahertz Metamaterials Market Value, By Application, 2013-2025 ($Million)
Table 13 Aerospace & Defense: Terahertz Market Value, By Geography, 2013-2025 ($Million)
Table 14 Medical Instrumentation: Terahertz Market Value, By Geography, 2013-2025 ($Million)
Table 15 Optics: Terahertz Market Value, By Geography, 2013-2025 ($Million)
Table 16 Sensing: Terahertz Market Value, By Geography, 2013-2025 ($Million)
Table 17 Telecommunication: Terahertz Market Value, By Geography, 2013-2025 ($Million)
Table 18 Terahertz Metamaterials Market Value, By Geography, 2013-2025 ($Million)
Table 19 Photonic Metamaterials Market Value, By Application, 2013-2025 ($Million)
Table 20 Medical Instrumentation: Photonic Market Value, By Geography, 2013-2025 ($Million)
Table 21 Optics: Photonic Market Value, By Geography, 2013-2025 ($Million)
Table 22 Telecommunication: Photonic Market Value, By Geography, 2013-2025 ($Million)
Table 23 Photonic Metamaterials Market Value, By Geography, 2013-2025 ($Million)
Table 24 Tunable Metamaterials Market Value, By Application, 2013-2025 ($Million)
Table 25 Aerospace & Defense: Tunable Market Value, By Geography, 2013-2025 ($Million)
Table 26 Medical Instrumentation: Tunable Market Value, By Geography, 2013-2025 ($Million)
Table 27 Sensing: Tunable Market Value, By Geography, 2013-2025 ($Million)
Table 28 Telecommunication: Tunable Market Value, By Geography, 2013-2025 ($Million)
Table 29 Tunable Metamaterials Market Value, By Geography, 2013-2025 ($Million)
Table 30 FSS Based Metamaterials Market Value, By Application, 2013-2025 ($Million)
Table 31 Aerospace & Defense: FSS Based Market Value, By Geography, 2013-2025 ($Million)
Table 32 Medical Instrumentation: FSS Based Market Value, By Geography, 2013-2025 ($Million)
Table 33 Sensing: FSS Based Market Value, By Geography, 2013-2025 ($Million)
Table 34 Telecommunication: FSS Based Market Value, By Geography, 2013-2025 ($Million)
Table 35 FSS Based Metamaterials Market Value, By Geography, 2013-2025 ($Million)
Table 36 Non-Linear Metamaterials Market Value, By Application, 2013-2025 ($Million)
Table 37 Aerospace & Defense: Non-Linear Market Value, By Geography, 2013-2025 ($Million)
Table 38 Medical Instrumentation: Non-Linear Market Value, By Geography, 2013-2025 ($Million)
Table 39 Optics: Non-Linear Market Value, By Geography, 2013-2025 ($Million)
Table 40 Telecommunication: Non-Linear Market Value, By Geography, 2013-2025 ($Million)
Table 41 Non-Linear Metamaterials Market Value, By Geography, 2013-2025 ($Million)
Table 42 Antennas Market Value, 2013-2025 ($Million)
Table 43 Superlens Market Value, 2013-2025 ($Million)
Table 44 Cloaking Devices Market Value, 2013-2025 ($Million)
Table 45 Absorbers Market Value, 2013-2025 ($Million)
Table 46 Artificial Materials Market Value, By Application, 2013-2025 ($Million)
Table 47 Aerospace & Defense: Market Value, By Type, 2013-2025 ($Million)
Table 48 Aerospace & Defense: Market Value, By Geography, 2013-2025 ($Million)
Table 49 Medical Instrumentation: Market Value, By Type, 2013-2025 ($Million)
Table 50 Medical Instrumentation: Market Value, By Geography, 2013-2025 ($Million)
Table 51 Optics: Market Value, By Type, 2013-2025 ($Million)
Table 52 Optics: Market Value, By Geography, 2013-2025 ($Million)
Table 53 Comparison of Biosensors
Table 54 Sensing: Market Value, By Type, 2013-2025 ($Million)
Table 55 Sensing: Market Value, By Geography, 2013-2025 ($Million)
Table 56 Telecommunication: Market Value, By Type, 2013-2025 ($Million)
Table 57 Telecommunication: Market Value, By Geography, 2013-2025 ($Million)
Table 58 Metamaterial Market Value, By Geography, 2013-2025 ($Million)
Table 59 North America: Artificial Materials Market Value, By Type, 2013-2025 ($Million)
Table 60 North America: Market Value, By Application, 2013-2025 ($Million)
Table 61 Europe: Artificial Materials Market Value, By Type, 2013-2025 ($Million)
Table 62 Europe: Market Value, By Application, 2013-2025 ($Million)
Table 63 APAC: Artificial Materials Market Value, By Type, 2013-2025 ($Million)
Table 64 APAC: Market Value, By Application, 2013-2025 ($Million)
Table 65 ROW: Artificial Materials Market Value, By Type, 2013-2025 ($Million)
Table 66 ROW: Market Value, By Application, 2013-2025 ($Million)
Table 67 New Projects/New Product Development
Table 68 Partnerships/Contracts
Table 69 Other Developments


List of Figures (28 Figures)

Figure 1 Market Segmentation
Figure 2 Determining The Commercialization Year of Applications
Figure 3 Market Segmentation
Figure 4 History and Evolution
Figure 5 Impact Analysis of Market Drivers, 2015-2025
Figure 6 Impact Analysis of Market Restraints, 2015-2025
Figure 7 Value Chain Analysis
Figure 8 Analysis of Key Growth Strategies
Figure 9 Applied EM: Company Snapshot
Figure 10 Applied EM: Product Portfolio
Figure 11 Applied EM: SWOT Analysis
Figure 12 JEM Engineering: Company Snapshot
Figure 13 JEM Engineering: Antenna Designs
Figure 14 JEM Engineering: SWOT Analysis
Figure 15 Kymeta Corporation: Company Snapshot
Figure 16 Kymeta Corporation: Product Portfolio
Figure 17 Kymeta Corporation: SWOT Analysis
Figure 18 Metamagnetics: Company Snapshot
Figure 19 Metamagnetics: Product Portfolio
Figure 20 Metamaterial Technologies Inc.: Company Snapshot
Figure 21 Microwave Measurement Systems Llc: Company Snapshot
Figure 22 Microwave Measurement Systems Llc: Product Portfolio
Figure 23 Nanohmics Inc.: Company Snapshot
Figure 24 Nanosonic Inc.: Company Snapshot
Figure 25 Plasmonics Inc.: Company Snapshot
Figure 26 Plasmonics Inc.: Product Portfolio
Figure 27 Teraview: Company Snapshot
Figure 28 Teraview: Product Portfolio

 

Date of Publication:
Apr 22, 2014
File Format:
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Number of Pages:
133 Pages
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