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Laser Diodes & Direct Diode Lasers 2019-2029: Technologies, Markets & Forecasts

レーザーダイオード＆ダイレクトダイオードレーザ 2019-2029年：技術、市場＆予測：半導体レーザ、ミリワットからマルチキロワット、材料処理の革新、光学センシングと光学ポンピング

このレポートはレーザーダイオード（半導体レーザ）とダイレクトダイオードレーザーの市場を調査し、2029年までの技術の採用ロードマップや、市場のSWOT分析、主要企業21社のプロフィールを掲載しています。 ... もっと見る

出版社	出版年月	価格	ページ数	言語
IDTechEx アイディーテックエックス	2019年3月26日	お問い合わせくださいライセンス・価格情報注文方法はこちら	324	英語

※価格はデータリソースまでお問い合わせください。

Table of Contents

Summary

このレポートはレーザーダイオード（半導体レーザ）とダイレクトダイオードレーザーの市場を調査し、2029年までの技術の採用ロードマップや、市場のSWOT分析、主要企業21社のプロフィールを掲載しています。

Report Overview

Following a period of dedicated research by expert analysts, IDTechEx have published a report that provides unique insights into the global laser diode and direct diode laser market. The report provides a detailed assessment of market dynamics and related technology innovations. Importantly, the report offers an unbiased analysis of primary data gathered via our interviews with key players, and it builds on our expertise in end user technologies like electric vehicles and sensors. This report contains valuable insights for companies in the laser supply chain like semiconductor suppliers, laser system manufacturers, and end users of laser systems. The latter includes automotive, electronics and other manufacturing industries.

Laser Diodes Revolutionise Optical Sensing & Material Processing

Laser diodes are highly compact and energy efficient semiconductor technologies, which are available at unit prices below $1 for mass produced devices. Products are offered in a variety of wavelengths from ultraviolet to long-wave infrared: the central wavelength is determined by the device structure and constituent semiconductor materials. Laser diodes differ greatly from light-emitting diodes (LEDs) by exhibiting a narrow spectral linewidth (monochromatic), coherent beam properties, high radiance (brightness) and superior efficiency. The figure below illustrates the addressable market for laser diodes.

The addressable market for laser diodes. Laser diodes are integrated into direct diode lasers for material processing applications. Outlines indicate the segments analysed in depth by IDTechEx. Advanced scientific applications are beyond the scope of this report. Source: IDTechEx

The power output delivered by a single emitter can range from milliwatt to multi-watt levels. Individual emitters can be used alone, combined into laser diode bars for the optical pumping of solid-state lasers, or integrated into laser diode modules for a diverse range of applications. The figure below shows examples of end user industries that benefit from laser diode technologies for 3D sensing and imaging. The wide adoption of laser diodes will revolutionise the automotive and electronics industries.

Examples of end user industries that benefit from laser diode technologies for 3D sensing and imaging. Source: II-VI Incorporated

During the past three decades, the average power of laser diodes has increased exponentially, while their average price has decreased exponentially. These incredible advances in semiconductor laser technology enable the development of sub-kilowatt direct diode lasers (DDLs) and multi-kilowatt high-power direct diode lasers (HPDDLs). Dramatic improvements in beam quality have revealed DDLs as important tools for processing metals in addition to plastics and composites. DDLs and HPDDLs are emerging as major global trends in industrial manufacturing. Recent innovations include the development of blue diode lasers for welding and 3D printing copper.

Market Analysis by IDTechEx

In this report, IDTechEx analyst Dr Nilushi Wijeyasinghe explores how recent innovations in laser diode technologies affect the growth of market segments outlined above. Recent progress is highlighted using case studies, where she draws on her background in laser physics and semiconductor physics research to explain novel technical concepts. Meanwhile, the advantages and challenges associated with laser technology adoption are evaluated to provide a balanced outlook on market opportunities. Market forecasts are based on the extensive analysis of primary and secondary data, combined with careful consideration of market drivers, restraints and key player activities.

The global market for laser diodes and direct diode lasers will be $13.985 billion by 2029, where laser diodes account for $11.952 billion and direct diode lasers account for $2.033 billion.

IDTechEx Report Structure

Technical introduction:

Properties of laser diodes, principles of device operation and technical parameters
Classification of semiconductor laser devices and integrated systems
Laser optics and user safety

Market analysis and forecasts:

Market segmentation
Players by segment and geography; laser diode and DDL supply chain
SWOT analysis: strengths, weaknesses, opportunities and threats
30-year historical analysis of laser diode parameters and price
Key players: revenue growth; business divisions; production; mergers and acquisitions
2018 global market size: total size and segment sizes; market share of key players per segment
10-year global market forecasts: laser diodes; direct diode lasers; forecasts by segment
Technology adoption roadmaps by segment for 2018-2029
Analysis of technology trends and market drivers in high-growth segments
Analyst insights on material processing trends, optical sensing trends and optical pumping trends
21 company profiles

Case studies on recent innovations:

Material processing: joining; heating; additive manufacturing
Optical sensing: 3D sensing & imaging; automotive lidar; industrial machine vision
Optical pumping: fiber lasers; disk lasers

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Table of Contents

EXECUTIVE SUMMARY & CONCLUSIONS

1.1.

Laser Diodes & Light-Emitting Diodes

1.2.

Material, Wavelength & Application: Summary Table

1.3.

Addressable Market

1.4.

Laser Diode & DDL Manufacturers by Market Segment

1.5.

Material Processing Market Segment

1.6.

Optical Sensing Market Segment

1.7.

Healthcare Market Segment

1.8.

Optical Pumping Market Segment

1.9.

Display & Illumination Market Segment

1.10.

Data Storage & Communication Market Segment

1.11.

Defence Market Segment

1.12.

Direct Diode Lasers Market Forecast

1.13.

Laser Diodes Market Forecast

1.14.

Technology Adoption Roadmap by Segment

1.15.

High-Growth Segments: Technology Trends & Market Drivers

1.16.

Analyst Insights on Material Processing Trends

1.17.

Analyst Insights on Optical Sensing Trends

1.18.

Analyst Insights on Optical Pumping Trends

TECHNICAL INTRODUCTION

2.1.

Overview of Device Properties & Operating Principles

2.1.1.

Laser Diodes & Light-Emitting Diodes

2.1.2.

Laser Operating Principles

2.1.3.

Types of Laser: Diode, Fiber, Disk & Gas

2.1.4.

Basic Homojunction Devices

2.1.5.

Standard Heterostructure Devices

2.1.6.

Device Operation & Optical Feedback

2.1.7.

Key Device Parameters

2.1.8.

Effects of Operating Temperature

2.2.

Device Structures, Integrated Systems & Applications

2.2.1.

Quantum Well & Multiple Quantum Well Systems

2.2.2.

Waveguides: Gain Guided & Index Guided Devices

2.2.3.

Comparison of Device Types

2.2.4.

Types of Laser Diode: Single Mode Fabry Perot & Multimode

2.2.5.

Types of Laser Diode: DFB & DBR

2.2.6.

Types of Laser Diode: VCSEL

2.2.7.

Types of Laser Diode: External Cavity & Quantum Cascade

2.2.8.

Wavelength & Power Options

2.2.9.

Power, Wavelength & Application Relationship

2.2.10.

Material, Wavelength & Application Relationship

2.2.11.

Material, Wavelength & Application: Summary Table

2.2.12.

Common Device Packages

2.2.13.

Laser Diode Bar

2.2.14.

Laser Diode Stack & Linear Array

2.2.15.

Direct Diode Laser (DDL) & Laser Diode Module

2.2.16.

High-Power Direct Diode Laser (HPDDL)

2.2.17.

Operating Regimes & Beam Characteristics

2.2.18.

Effects of Pulsed Laser Operation

2.2.19.

Active Fiber Converter for Beam Quality Enhancement

2.3.

Other Considerations: Optical Components & User Safety

2.3.1.

High-Precision Optics for Laser Systems

2.3.2.

Optical Components: Transmission Spectrum

2.3.3.

Optical Components: Laser Damage Limitation

2.3.4.

Hazards: Laser Radiation

2.3.5.

Hazards: Laser Generated Fumes

MARKET ANALYSIS & FORECASTS

3.1.

Market Structure: Segments & Players

3.1.1.

Laser Diode Supply Chain: Key Players

3.1.2.

Laser Diode & DDL Manufacturers by Geography

3.1.3.

Addressable Market

3.1.4.

Laser Diode & DDL Manufacturers by Market Segment

3.1.5.

Material Processing Market Segment

3.1.6.

Optical Sensing Market Segment

3.1.7.

Healthcare Market Segment

3.1.8.

Optical Pumping Market Segment

3.1.9.

Display & Illumination Market Segment

3.1.10.

Data Storage & Communication Market Segment

3.1.11.

Defence Market Segment

3.2.

Analysis of Strengths, Weaknesses, Opportunities & Threats (SWOT)

3.2.1.

Laser Diodes: Strengths & Weaknesses

3.2.2.

Laser Diodes: Opportunities & Threats

3.2.3.

Direct Diode Lasers: Strengths & Weaknesses

3.2.4.

Direct Diode Lasers: Opportunities & Threats

3.2.5.

Material Processing SWOT Analysis: Joining

3.2.6.

Material Processing SWOT Analysis: Heating

3.2.7.

Material Processing SWOT Analysis: Additive Manufacturing

3.2.8.

Optical Sensing SWOT Analysis: 3D Sensing & Imaging

3.2.9.

Optical Sensing SWOT Analysis: Automotive Lidar

3.2.10.

Optical Sensing SWOT Analysis: Industrial Machine Vision

3.2.11.

Optical Pumping SWOT Analysis: Fiber & Disk Lasers

3.3.

Evolution of Laser Diode Parameters & Price: 30-Year Analysis

3.3.1.

Development of Powerful & Cost-Effective Lasers

3.3.2.

Evolution of Laser Diode Power

3.3.3.

Evolution of Laser Diode Power: Semilogarithmic Plot

3.3.4.

Evolution of Laser Diode Price

3.3.5.

Price Evolution: Impact on Diode-Pumped Lasers

3.3.6.

Evolution of Laser Diode Radiance

3.3.7.

Evolution of Laser Diode Price Normalised by Radiance

3.3.8.

Evolution of High-Power Direct Diode Lasers

3.3.9.

Increase in Laser Power: New Applications

3.3.10.

Increase in Laser Power: New Hazards & Crimes

3.3.11.

Increase in Laser Power: New Legislation

3.4.

Analysis of Selected Key Players

3.4.1.

AMS: Analysis of Revenue Growth

3.4.2.

AMS: Revenue Growth by Application

3.4.3.

Coherent & Rofin: Analysis of Revenue Growth

3.4.4.

Finisar: Analysis of Laser Diode Production

3.4.5.

II-VI Incorporated: Analysis of Revenue Growth

3.4.6.

II-VI Incorporated: Analysis of Business Divisions

3.4.7.

IPG Photonics: Analysis of Revenue Growth

3.4.8.

Jenoptik: Analysis of Revenue Growth

3.4.9.

Jenoptik: Analysis of Business Divisions

3.4.10.

Lumentum: Analysis of Revenue Growth

3.4.11.

Lumentum: Revenue Growth by Application

3.4.12.

Maxphotonics: Analysis of Revenue Growth

3.4.13.

Osram: Analysis of Revenue Growth & Business Divisions

3.4.14.

ROHM: Analysis of Revenue Growth & Business Divisions

3.4.15.

Sharp: Analysis of Business Divisions

3.4.16.

Sony: Analysis of Semiconductors Business Division

3.4.17.

SPI Lasers: Revenue Growth from Fiber Lasers

3.4.18.

TRUMPF: Analysis of Revenue Growth & Business Divisions

3.5.

Market Size & Growth 2019-2029

3.5.1.

DDL Material Processing: Market Share of Key Players

3.5.2.

HPDDL Material Processing: Market Share of Key Players

3.5.3.

Optical Sensing: Market Share of Key Players

3.5.4.

Healthcare: Market Share of Key Players

3.5.5.

Optical Pumping: Market Share of Key Players

3.5.6.

Display & Illumination: Market Share of Key Players

3.5.7.

Data Storage & Communication: Market Share of Key Players

3.5.8.

Defence: Market Share of Key Players

3.5.9.

Global Market Forecast by Technology Type

3.5.10.

Global Market Forecast by Application

3.5.11.

Global Market Share by Application

3.5.12.

Direct Diode Lasers Market Forecast

3.5.13.

Growth of Direct Diode Laser Market Segments

3.5.14.

Laser Diodes Market Forecast

3.5.15.

Growth of Laser Diode Market Segments

3.5.16.

Laser Diodes: Change in Market Share by Application

3.5.17.

Technology Adoption Roadmap by Segment

3.5.18.

High-Growth Segments: Technology Trends & Market Drivers

3.5.19.

Analyst Insights on Material Processing Trends

3.5.20.

Analyst Insights on Optical Sensing Trends

3.5.21.

Analyst Insights on Optical Pumping Trends

3.5.22.

Forecast Methodology: Data Collection

3.5.23.

Forecast Methodology: Challenges & Assumptions

3.6.

Appendix: Market Data

3.6.1.

Appendix 1: Key Player Financial & Production Data

3.6.2.

Appendix 2: Key Player Financial Data

3.6.3.

Appendix 3: Key Player Financial Data

3.6.4.

Appendix 4: Key Player Financial Data

3.6.5.

Appendix 5: Key Player Financial Data

3.6.6.

Appendix 6: Direct Diode Lasers Market Size Data for 2018

3.6.7.

Appendix 7: Laser Diodes Market Size Data for 2018

3.6.8.

Appendix 8: Global Market Forecast Data for 2018-2029

MATERIAL PROCESSING INNOVATIONS: TRENDS & CASE STUDIES

4.1.

Joining with Direct Diode Lasers

4.1.1.

Metals: Laser Brazing for Automotive Manufacturing

4.1.2.

Metals: Single & Multi-Spot Brazing of Vehicle Bodies

4.1.3.

Metals: Laser Welding for Automotive Manufacturing

4.1.4.

Metals: Conduction Welding

4.1.5.

Metals: Keyhole Welding

4.1.6.

Blue Laser: Battery Welding

4.1.7.

Blue Laser: Soldering & Wire Processing

4.1.8.

Plastics: Transmission Laser Welding

4.1.9.

Plastics: Comparison of Welding Methods

4.1.10.

Plastics: Laser Compatibility

4.1.11.

Plastics: Compatibility & Decomposition

4.1.12.

Plastics: Infrared Absorbers

4.1.13.

Plastics: Laser Absorption Considerations

4.1.14.

Plastics: Materials & Applications

4.1.15.

Plastics: Laser Welded Components & Devices

4.1.16.

Joining Thermoplastic Tapes to Metal Alloys

4.1.17.

Automation: Dynamic Beam Shaping

4.1.18.

Automation: Welding Depth Control

4.1.19.

Automation: Laser Welding Industry 4.0

4.1.20.

Products: High-Power Direct Diode Lasers for Joining

4.2.

Heating with Direct Diode Lasers

4.2.1.

Laser Hardening

4.2.2.

Laser Hardening of Parts with Complex Geometries

4.2.3.

Steel Hardening with Blue Laser

4.2.4.

Laser Softening of Steel for Automotive Manufacturing

4.2.5.

Laser Annealing Semiconductors in Solar Cells

4.2.6.

High-Power Diode Laser Products for Heat Treatment

4.3.

Additive Manufacturing with Direct Diode Lasers

4.3.1.

Blue Laser: 3D Printing of Photosensitive Resins

4.3.2.

Blue Laser: 3D Printing of Copper

4.3.3.

Multi-Beam Laser Array for Metal 3D Printing

4.3.4.

Diode & Solid-State Hybrid Laser System for 3D Printing

4.3.5.

Laser Cladding

4.3.6.

3D Cladding of Metals for Protection & Repair

OPTICAL SENSING INNOVATIONS: TRENDS & CASE STUDIES

5.1.

3D Sensing & Imaging for Consumer Electronics & Automotive Cabins

5.1.1.

Emerging Applications in 3D Sensing for Laser Diodes

5.1.2.

Time-of-Flight, Structured Light & Stereo Vision Methods

5.1.3.

3D Sensing Methods: Pros, Cons & Applications

5.1.4.

Comparison of Infrared Illumination Sources: Laser & LED

5.1.5.

Comparison of Laser Diode Options

5.1.6.

3D Depth Sensing & Gesture Recognition

5.1.7.

Proximity Sensing for Battery Operated Devices

5.1.8.

Facial Recognition & Emotion Recognition

5.1.9.

Laser Touchscreen Displays: Patents & Progress

5.1.10.

Depth Sensing for Augmented & Virtual Reality

5.1.11.

Automotive: In-Cabin Monitoring

5.1.12.

Laser Diode Design: Automotive vs. Consumer Electronics

5.2.

Lidar for Autonomous Vehicles

5.2.1.

Autonomous Driving Technology

5.2.2.

Levels of Autonomous Driving

5.2.3.

Operating Principles & Requirements of Automotive Lidar

5.2.4.

Lidar: Advantages & Challenges

5.2.5.

Autonomous Vehicles Navigating Without Lidar

5.2.6.

Comparison of Competing & Emerging Lidar Technologies

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