▶ 調査レポート

補償光学部品の世界市場 2019年-2026年

• 英文タイトル:Global Adaptive Optics Components Sale, Insights Market Research Report 2019-2026

Straits Researchが調査・発行した産業分析レポートです。補償光学部品の世界市場 2019年-2026年 / Global Adaptive Optics Components Sale, Insights Market Research Report 2019-2026 / D0FE190017資料のイメージです。• レポートコード:D0FE190017
• 出版社/出版日:Straits Research / 2020年2月13日
• レポート形態:英文、PDF、219ページ
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レポート概要
本調査レポートでは補償光学部品の世界市場について広く調査・分析し、イントロダクション、調査手法、市場動向、種類別(波面センサー、波面変調器、制御システム、その他)分析、用途別(消費財、天文学、軍事&防衛、工業&製造、生物医学、その他)分析、地域別分析、企業概要などを含め、今後の市場展望をまとめております。
・イントロダクション
・調査手法
・市場動向
・補償光学部品の世界市場:種類別(波面センサー、波面変調器、制御システム、その他)
・補償光学部品の世界市場:用途別(消費財、天文学、軍事&防衛、工業&製造、生物医学、その他)
・補償光学部品の世界市場:地域別
・企業概要

Global Statistics Representing Adaptive Optics Components Market Scenario

Smart optics is one of the developing fields that includes active and adaptive optics applications in astronomy. Today, most of the largest ground-based telescopes are using wavefront sensors to analyze the distortion of signals by atmosphere and wavefront modulators such as deformable mirrors to compensate these effects. These techniques are becoming a part of various operations of James Webb Space Telescope (JWST) and NASA’s Next Generation Space Telescope. Thus, offering potential opportunity in the future missions for laser interferometer space antenna (LISA) technology and X-ray evolving universe spectroscopy (XEUS) both developed by the European Space Agency (ESA) for greater accuracy using optical wavelengths.
The next revolution in the telescope technology is likely to offer an opportunity to use lightweight materials such as carbon fiber-reinforced polymer (CFRP) for manufacturing telescope and optics. The telescopes are now being constructed entirely from CFRP for Navy Optical Prototype Interferometer (NPOI). These telescopes are rigid and offer better optical figures to enhance the performance of telescopes. For instance, The Astronomical Observatory of Brera (OAB) is inspecting a technique for manufacturing optical components that have the potential to fulfil the requirements such as cost-effectiveness and short time delivery.

Market Dynamics
Rising demand for adaptive optics in high resolution-microscopy is expected to drive the adaptive optics market growth during the forecast period 2019–2026. High-resolution microscopy is on excessive demand in the health and medicine sector which provides medical researchers a detailed close-up glimpse of microbes, including various injurious and destructive viruses that are tiny for existing microscopes. Adaptive optics helps to improve understanding about the microbes that affect the immune system of human cells. Moreover, it helps researchers to study replication of virus genes in infected cultures or tissues and to introduce new antiviral chemotherapies for controlling hazardous diseases.
Increasing use of adaptive optics in free-space laser communication is expected to fuel the adaptive optics component market. It offers speed over long distances at high bandwidth and improves performance, reduces overall transceiver size and power requirements suitable for any weather condition. According to the Optical Society of America (OSA), adaptive optics can decrease Bit Error Rate (BER) with two orders of magnitude.
Additionally, free space optical systems have gained considerable popularity as companies continue to solve the “last mile” problem due to the short setup time. For instance, FSO companies were hired by the U.S. government for solving a tragic terrorist incident of the World Trade Centre (WTC) towers on September 11, 2001. A link was set up in the WTC aftermath and was used for free space optical communications across the Hudson River to a nearby New Jersey location.

Intended Audience
Optical solution providers
Optical component manufacturers
OEMs
Smart city solution providers
System Integrators
Potential investors
Government organizations
Defense agencies
Research organizations

Segmental Insights
The global adaptive optics components market is segmented by type, applications and region.
On the basis of type, the adaptive optics components market is segmented by wavefront sensors, wavefront modulators, control systems, and others. Wavefront sensors by type is expected to dominate the global adaptive optics market due to its various applications including laser beam diagnostics, ophthalmology, metrology, and microscopy. Moreover, it is used for detecting the wavefront distortion in real time. Wavefront curvature technique possess a considerable amount of opportunities for metrology applications. Additionally, the control system is projected to witness exponential growth in the global adaptive component optics market due to its growing use in measuring the shape of wavefront and producing the signals that represent the wavefront.

Global adaptive optics components market by wavefront modulator is expected to grow at CAGR 36.90% during the forecast period 2019–2026.
By application, the adaptive optics components market is segmented by consumer goods, astronomy, military & defense, biomedical, industrial & manufacturing, and others. Military & Defense sector is expected to be one of the largest contributors to the adaptive optics market as the military capabilities of various countries are rapidly expanding across the globe and adaptive optics are used to develop highly advanced guidance system and state-of-the-art defense weapons in sector. For instance, the U.S. Air Force Boeing Airborne Laser, also known as the ABL, is designed using adaptive optics to detect enemy ballistic missiles in boost phase and destroy them in flight aboard a converted 747 jumbo jet.

Regional Landscape
Geographically, the global adaptive optics component market is segmented into North America, Europe, Asia Pacific, Latin America and Middle East & Africa (LAMEA).
North America is expected to witness significant growth in adaptive optics component market owing to increased focus on the development of advanced optics system and its adoption in the astronomical field for delivering sharper images during the forecast period 2019–2026. For instance, in October 2018, W. M. Keck Observatory received observatory funding from the National Science Foundation (NSF) for building the next-generation AO system known as Keck All-Sky Precision Adaptive Optics (KAPA). This technology would primarily focus on delivering sharper images of the universe with nearly 100% clarity by upgrading three major components: laser, a computer that calculates real-time correction, and a camera that measures atmospheric turbulence.
Europe is expected to witness considerable growth in adaptive optics component market during the forecast period 2019–2026. This is attributed to technology playing a key role in the success of the European Extremely Large Telescope (E-ELT) project. For instance, in July 2018, European Southern Observatory (ESO) Very Large Telescope (VLT) achieved huge success by capturing sharp test images of Neptune planet and other objects. The observatory has introduced a new adaptive optics mode called laser tomography for capturing such high-resolution images.
In Asia Pacific retinal imaging is one of the primary applications that has favoured the market growth for the last few years owing to the development of devices for capturing high-quality back-end images of eyes with adaptive optics technology. For instance, in February 2016, Imagine Eyes announced its first installation of adaptive optics based retinal camera at the Eye Hospital Wenzhou Medical University in Hangzhou (China).
However, LAMEA is expected to witness moderate growth due to the growing focus on developing high-end astronomical equipment to cut atmospheric distortion for producing higher clarity images is likely to revolutionize the ground-based optical astronomy in the region.

Key Players
Some of the major players in Adaptive optics component market are Northrop Grumman Corporation (U.S.), Iris AO, Inc. (U.S.), HOLOEYE Photonics AG (Germany), A.D.S. International S.r.l. (Italy), Canon Inc. (Japan), Active Optical Systems, LLC (U.S.), Carl Zeiss Meditec AG (Germany), Raytheon (U.S.), Imagine Optic (France), Thorlabs, Inc. (U.S.), Cilas SA (France), Baker Adaptive Optics (U.S.), Phasics Corp (France), Boston Micromachines Corporation (BMC) (U.S.), ALPAO (France), SCHOTT North America, Inc. (U.S.), and Synopsis, Inc (U.S.).

レポート目次

TABLE OF CONTENTS

1 Introduction

1.1 Market Definition

1.2 Market Scope

2 Research Methodology

2.1 Primary Research

2.2 Research Methodology

2.3 Assumptions & Exclusions

2.4 Secondary Data Sources

3 Market Overview

3.1 Report Segmentation & Scope

3.2 Value Chain Analysis: Adaptive Optics Components Market

3.3 Key Market Trends

3.3.1 Drivers

3.3.2 Restraints

3.3.3 Opportunities

3.4 Porter’s Five Forces Analysis

3.4.1 Bargaining Power of Suppliers

3.4.2 Bargaining Power of Buyers

3.4.3 Threat of Substitution

3.4.4 Threat of New Entrants

3.4.5 Competitive Rivalry

3.5 Market Share Analysis

4 Type Overview

4.1 Introduction

4.1.1 Market Size & Forecast

4.2 Wavefront Sensors

4.2.1 Market Size & Forecast

4.3 Wavefront Modulators

4.3.1 Market Size & Forecast

4.4 Control Systems

4.4.1 Market Size & Forecast

4.5 Others

4.5.1 Market Size & Forecast

5 Application Overview

5.1 Introduction

5.1.1 Market Size & Forecast

5.2 Consumer Goods

5.2.1 Market Size & Forecast

5.3 Astronomy

5.3.1 Market Size & Forecast

5.4 Military & Defense

5.4.1 Market Size & Forecast

5.5 Industrial & Manufacturing

5.5.1 Market Size & Forecast

5.6 Biomedical

5.6.1 Market Size & Forecast

5.7 Others

5.7.1 Market Size & Forecast

6 Regional Overview

6.1 Introduction

6.1.1 Market Size & Forecast

6.2 North America

6.2.1 Market Size & Forecast

6.2.2 U.S.

6.2.2.1 By Type

6.2.2.2 By Application

6.2.3 Canada

6.2.3.1 By Type

6.2.3.2 By Application

6.2.4 Mexico

6.2.4.1 By Type

6.2.4.2 By Application

6.3 Europe

6.3.1 Market Size & Forecast

6.3.2 Germany

6.3.2.1 By Type

6.3.2.2 By Application

6.3.3 France

6.3.3.1 By Type

6.3.3.2 By Application

6.3.4 UK

6.3.4.1 By Type

6.3.4.2 By Application

6.3.5 Italy

6.3.5.1 By Type

6.3.5.2 By Application

6.3.6 Spain

6.3.6.1 By Type

6.3.6.2 By Application

6.3.7 Rest of Europe

6.3.7.1 By Type

6.3.7.2 By Application

6.4 Asia Pacific

6.4.1 Market Size & Forecast

6.4.2 Japan

6.4.2.1 By Type

6.4.2.1 By Application

6.4.3 China

6.4.3.1 By Type

6.4.3.2 By Application

6.4.4 Australia

6.4.4.1 By Type

6.4.4.2 By Application

6.4.5 India

6.4.5.1 By Type

6.4.5.2 By Application

6.4.6 South Korea

6.4.6.1 By Type

6.4.6.2 By Application

6.4.7 Rest of Asia-Pacific

6.4.7.1 By Type

6.4.7.2 By Application

6.5 LAMEA

6.5.1 Market Size & Forecast

6.5.2 Saudi Arabia

6.5.2.1 By Type

6.5.2.2 By Application

6.5.3 South Africa

6.5.3.1 By Type

6.5.3.2 By Application

6.5.4 Brazil

6.5.4.1 By Type

6.5.4.2 By Application

6.5.5 Rest of LAMEA

6.5.5.1 By Type

6.5.5.2 By Application

7 Company Profile

7.1 Northrop Grumman Corporation

7.1.1 Company Overview

7.1.2 Financial Performance

7.1.3 Recent Developments

7.1.4 Product Portfolio

7.2 Iris AO, Inc

7.2.1 Company Overview

7.2.2 Financial Performance

7.2.3 Recent Developments

7.2.4 Product Portfolio

7.3 HOLOEYE Photonics AG

7.3.1 Company Overview

7.3.2 Financial Performance

7.3.3 Recent Developments

7.3.4 Product Portfolio

7.4 A.D.S. International S.r.l.

7.4.1 Company Overview

7.4.2 Financial Performance

7.4.3 Recent Developments

7.4.4 Product Portfolio

7.5 Canon Inc.

7.5.1 Company Overview

7.5.2 Financial Performance

7.5.3 Recent Developments

7.5.4 Product Portfolio

7.6 Active Optical Systems, LLC

7.6.1 Company Overview

7.6.2 Financial Performance

7.6.3 Recent Developments

7.6.4 Product Portfolio

7.7 Carl Zeiss Meditec AG

7.7.1 Company Overview

7.7.2 Financial Performance

7.7.3 Recent Developments

7.7.4 Product Portfolio

7.8 Raytheon

7.8.1 Company Overview

7.8.2 Financial Performance

7.8.3 Recent Developments

7.8.4 Product Portfolio

7.9 Imagine Optic

7.9.1 Company Overview

7.9.2 Financial Performance

7.9.3 Recent Developments

7.9.4 Product Portfolio

7.10 Thorlabs, Inc

7.10.1 Company Overview

7.10.2 Financial Performance

7.10.3 Recent Developments

7.10.4 Product Portfolio

7.11 Cilas SA

7.11.1 Company Overview

7.11.2 Financial Performance

7.11.3 Recent Developments

7.11.4 Product Portfolio

7.12 Baker Adaptive Optics

7.12.1 Company Overview

7.12.2 Financial Performance

7.12.3 Recent Developments

7.12.4 Product Portfolio

7.13 Phasics Corp

7.13.1 Company Overview

7.13.2 Financial Performance

7.13.3 Recent Developments

7.13.4 Product Portfolio

7.14 Boston Micromachines Corporation

7.14.1 Company Overview

7.14.2 Financial Performance

7.14.3 Recent Developments

7.14.4 Product Portfolio

7.15 ALPAO

7.15.1 Company Overview

7.15.2 Financial Performance

7.15.3 Recent Developments

7.16.4 Product Portfolio

LIST OF TABLES

Table 1 Global Adaptive Optics Components Market Share, By Type, 2016 – 2026 ($Million)

Table 2 Wavefront sensors, Market Share, By Region, 2016 – 2026 ($Million)

Table 3 Wavefront Modulators, Market Share, By Region, 2016 – 2026 ($Million)

Table 4 Control Systems, Market Share, By Region, 2016 – 2026 ($Million)

Table 5 Others, Market Share, By Region, 2016 – 2026 ($Million)

Table 6 Global Adaptive Optics Components Market Share, By Application, 2016 – 2026 ($Million)

Table 7 Adaptive Optics Components Market, By Region, 2016 – 2026 ($Million)

Table 8 North America Adaptive Optics Components Market Share Value, By Country, 2016 – 2026 ($Million)

Table 9 North America Adaptive Optics Components Market Share Value, By Type, 2016-2026 ($Million)

Table 10 North America Adaptive Optics Components Market Share Value, By Application, 2016-2026 ($Million)

Table 11 U.S. Adaptive Optics Components Market Share, By Type, 2016-2026 ($Million)

Table 12 U.S. Adaptive Optics Components Market Share, By Application, 2016-2026 ($Million)

Table 13 Canada Adaptive Optics Components Market Share, By Type, 2016-2026 ($Million)

Table 14 Canada Adaptive Optics Components Market Share, By Application, 2016-2026 ($Million)

Table 15 Mexico Adaptive Optics Components Market Share, By Type, 2016-2026 ($Million)

Table 16 Mexico Adaptive Optics Components Market Share, By Application, 2016-2026 ($Million)

Table 17 Europe Adaptive Optics Components Market Share Value, By Country, 2016 – 2026 ($Million)

Table 18 Europe Adaptive Optics Components Market Share, By Type, 2016-2026 ($Million)

Table 19 Europe Adaptive Optics Components Market Share, By Application, 2016-2026 ($Million)

Table 20 Germany Adaptive Optics Components Market Share, By Type, 2016-2026 ($Million)

Table 21 Germany Adaptive Optics Components Market Share, By Application, 2016-2026 ($Million)

Table 22 France Adaptive Optics Components Market Share, By Type, 2016-2026 ($Million)

Table 23 France Adaptive Optics Components Market Share, By Application, 2016-2026 ($Million)

Table 24 UK Adaptive Optics Components Market Share, By Type, 2016-2026 ($Million)

Table 25 UK Adaptive Optics Components Market Share, By Application, 2016-2026 ($Million)

Table 26 Italy Adaptive Optics Components Market Share, By Type, 2016-2026 ($Million)

Table 27 Italy Adaptive Optics Components Market Share, By Application, 2016-2026 ($Million)

Table 28 Spain Adaptive Optics Components Market Share, By Type, 2016-2026 ($Million)

Table 29 Spain Adaptive Optics Components Market Share, By Application, 2016-2026 ($Million)

Table 30 Rest of Europe Adaptive Optics Components Market Share, By Type, 2016-2026 ($Million)

Table 31 Rest of Europe Adaptive Optics Components Market Share, By Application, 2016-2026 ($Million)

Table 32 Asia-Pacific Adaptive Optics Components Market Share Value, By Country, 2016 – 2026 ($Million)

Table 33 Asia-Pacific Adaptive Optics Components Market Share, By Type, 2016-2026 ($Million)

Table 34 Asia-Pacific Adaptive Optics Components Market Share, By Application, 2016-2026 ($Million)

Table 35 Japan Adaptive Optics Components Market Share, By Type, 2016-2026 ($Million)

Table 36 Japan Adaptive Optics Components Market Share, By Application, 2016-2026 ($Million)

Table 37 China Adaptive Optics Components Market Share, By Type, 2016-2026 ($Million)

Table 38 China Adaptive Optics Components Market Share, By Application, 2016-2026 ($Million)

Table 39 India Adaptive Optics Components Market Share, By Type, 2016-2026 ($Million)

Table 40 India Adaptive Optics Components Market Share, By Application, 2016-2026 ($Million)

Table 41 South Korea Adaptive Optics Components Market Share, By Type, 2016-2026 ($Million)

Table 42 South Korea Adaptive Optics Components Market Share, By Application, 2016-2026 ($Million)

Table 43 Rest of Asia-Pacific Adaptive Optics Components Market Share, By Type, 2016-2026 ($Million)

Table 44 Rest of Asia-Pacific Adaptive Optics Components Market Share, By Application, 2016-2026 ($Million)

Table 45 LAMEA Adaptive Optics Components Market Share Value, By Country, 2016 – 2026 ($Million)

Table 46 LAMEA Adaptive Optics Components Market Share, By Type, 2016-2026 ($Million)

Table 47 LAMEA Adaptive Optics Components Market Share, By Application, 2016-2026 ($Million)

Table 48 Saudi Arabia Adaptive Optics Components Market Share, By Type, 2016-2026 ($Million)

Table 49 Saudi Arabia Adaptive Optics Components Market Share, By Application, 2016-2026 ($Million)

Table 50 South Africa Adaptive Optics Components Market Share, By Type, 2016-2026 ($Million)

Table 51 South Africa Adaptive Optics Components Market Share, By Application, 2016-2026 ($Million)

Table 52 Brazil Adaptive Optics Components Market Share, By Type, 2016-2026 ($Million)

Table 53 Brazil Adaptive Optics Components Market Share, By Application, 2016-2026 ($Million)

Table 54 Rest of LAMEA Adaptive Optics Components Market Share, By Type, 2016-2026 ($Million)

Table 55 Rest of LAMEA Adaptive Optics Components Market Share, By Application, 2016-2026 ($Million)

LIST OF FIGURES

FIGURE 1 Global Adaptive Optics Component Market Overview

FIGURE 2 Value Chain Analysis

FIGURE 3 Bargaining Power of Suppliers

FIGURE 4 Bargaining Power of Buyers

FIGURE 5 Threat of Substitutes

FIGURE 6 Threat of New Entrants

FIGURE 7 Competitive Rivalry

FIGURE 8 Adaptive Optics Component Market, Market Share Analysis, 2016

FIGURE 9 Global Adaptive Optics Market, 2015-2025

FIGURE 10 U.S. Adaptive Optics Component Market Share, 2016-2026 ($Million)

FIGURE 11 Canada Adaptive Optics Component Market Share, 2016-2026 ($Million)

FIGURE 12 Mexico Adaptive Optics Component Market Share, 2016-2026 ($Million)

FIGURE 13 Germany Adaptive Optics Component Market Share, 2016-2026 ($Million)

FIGURE 14 France Adaptive Optics Component Market Share, 2016-2026 ($Million)

FIGURE 15 UK Adaptive Optics Component Market Share, 2016-2026 ($Million)

FIGURE 16 Italy Adaptive Optics Component Market Share, 2016-2026 ($Million)

FIGURE 17 Spain Adaptive Optics Component Market Share, 2016-2026 ($Million)

FIGURE 18 Rest of Europe Adaptive Optics Component Market Share, 2016-2026 ($Million)

FIGURE 19 Japan Adaptive Optics Component Market Share, 2016-2026 ($Million)

FIGURE 20 China Adaptive Optics Component Market Share, 2016-2026 ($Million)

FIGURE 21 Australia Adaptive Optics Component Market Share, 2016-2026 ($Million)

FIGURE 22 India Adaptive Optics Component Market Share, 2016-2026 ($Million)

FIGURE 23 South Korea Adaptive Optics Component Market Share, 2016-2026 ($Million)

FIGURE 24 Rest of Asia-pacific Adaptive Optics Component Market Share, 2016-2026 ($Million)

FIGURE 25 Saudi Arabia Adaptive Optics Component Market Share, 2016-2026 ($Million)

FIGURE 26 South Africa Adaptive Optics Market Share, 2016-2026 ($Million)

FIGURE 27 Brazil Adaptive Optics Component Market Share, 2016-2026 ($Million)

FIGURE 28 Rest of LAMEA Adaptive Optics Component Market Share, 2016-2026 ($Million)

FIGURE 29 Northrop Grumman Corporation: Revenue Analysis, ($ million)

FIGURE 30 Northrop Grumman Corporation: Segment Revenue 2018 (%)