1. |
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 |
2. |
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 |
3. |
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 |
4. |
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 |
5. |
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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