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1. | EXECUTIVE SUMMARY |
1.1. | Fiber Laser Light Amplification & Wavelength Bands |
1.2. | Addressable Market |
1.3. | Fiber Laser Supply Chain: Key Players |
1.4. | Fiber Laser Welding: SWOT Analysis |
1.5. | Fiber Laser 3D Printing of Metals: SWOT Analysis |
1.6. | Fiber Laser Automotive LiDAR: Industry Perspectives |
1.7. | Fiber Laser Automotive LiDAR: SWOT Analysis |
1.8. | Fiber Lasers for Medical Applications: SWOT Analysis |
1.9. | LiDAR & Medical Technology Adoption Roadmap |
1.10. | Global Fiber Laser Market Forecast |
1.11. | Global LiDAR & Medical Fiber Laser Market Forecast |
1.12. | Global Material Processing Market Forecast |
1.13. | Market Forecast by Geography |
1.14. | Fiber Laser Unit Price Forecast |
2. | OPERATING PRINCIPLES OF FIBER LASERS |
2.1. | Comparison of Lasers & LEDs |
2.2. | Overview of Laser Operating Principles |
2.3. | Laser Types: Diode, Fiber, Solid-State, Disk & Gas |
2.4. | Properties of Optical Fibers |
2.5. | Fiber Laser Optical Cavity |
2.6. | Fiber Laser Light Amplification & Wavelength Bands |
2.7. | Example System: Erbium-Doped Fiber Laser |
2.8. | Diode Laser Pump Stacking |
2.9. | Laser Beam Characteristics: Key Parameters |
2.10. | Effects of Pulse Duration in Pulsed Laser Systems |
2.11. | Master Oscillator Fiber Amplifier Concept |
2.12. | High-Precision Optics for Laser Systems |
2.13. | Optical Components: Transmission Spectrum |
2.14. | Optical Components: Laser Damage Limitation |
3. | MARKET STRUCTURE |
3.1. | Addressable Market |
3.2. | Fiber Laser Supply Chain: Key Players |
3.3. | Key Fiber Laser Suppliers |
3.4. | Key End User Industries for Material Processing |
3.5. | New Products from Key Players |
3.6. | Opportunities for Fiber Lasers |
3.7. | Challenges for Fiber Lasers |
3.8. | Evolution of CW Laser Power: Commercial Products |
3.9. | Evolution of Pulsed Laser Power: Commercial and R&D |
4. | APPLICATIONS & CASE STUDIES: INNOVATIONS IN MATERIAL PROCESSING |
4.1. | Laser Welding: Automotive Industry |
4.1.1. | Laser Welding: Alternative to Resistance Spot Welding |
4.1.2. | Fiber Laser Welding: SWOT Analysis |
4.1.3. | Laser Welding of Lightweight Metal Structures |
4.1.4. | Trifocal Beam Process for Vehicle Body Welding |
4.1.5. | Wobble Beam Process for Battery Welding |
4.1.6. | IPG Photonics: Wobble Beam Welding Patent |
4.1.7. | Brazing Process to Minimize Aluminium Cracking |
4.1.8. | Challenges in Laser Welding of Composites |
4.1.9. | Transmission Laser Welding of Plastics & Composites |
4.1.10. | Wobble Beam Welding of Plastics |
4.1.11. | Vacuum Laser Welding of High-Value Components |
4.1.12. | Automation: Welding Depth Control |
4.1.13. | Automation: Laser Welding Industry 4.0 |
4.1.14. | Automation: Robotic Fiber Laser Welding |
4.1.15. | Health Risks of Laser Generated Fumes |
4.2. | Laser Welding: Aerospace Industry |
4.2.1. | Laser Welding of Engine Components |
4.2.2. | Laser Welding of Rocket Engine Nozzle |
4.2.3. | Development of Fiber Laser Welding Capabilities |
4.2.4. | Laser Welding of Titanium Matrix Composite Structures |
4.3. | 3D Printing of Metals |
4.3.1. | Fiber Laser 3D Printing of Metals: SWOT Analysis |
4.3.2. | Cost Reduction in Selective Laser Melting |
4.3.3. | Selective Laser Melting for Micromachining Applications |
4.3.4. | Ultrafast Pulsed 3D Printing Process |
4.3.5. | Wire-Fed Laser Metal Deposition |
5. | EMERGING APPLICATIONS & CASE STUDIES: SENSING |
5.1. | LiDAR for Autonomous Vehicles: Automotive Industry |
5.1.1. | LiDAR Technologies & Applications |
5.1.2. | Solid-State LiDAR Technology Trend |
5.1.3. | Operating Principles of Automotive LiDAR |
5.1.4. | LiDAR Light Source: 905 nm Diode or 1550 nm Fiber |
5.1.5. | Alternatives to LiDAR Systems |
5.1.6. | Fiber Laser Automotive LiDAR: SWOT Analysis |
5.1.7. | Fiber Laser Automotive LiDAR: Industry Perspectives |
5.1.8. | Luminar: 1550 nm LiDAR Product |
5.1.9. | Luminar: Automotive LiDAR Patent |
5.1.10. | Luminar: Fiber Laser Light Source Patent |
5.1.11. | Luminar: 1550 nm Automotive LiDAR Demonstration |
5.1.12. | Toyota: Autonomous Vehicle with 1550 nm LiDAR |
5.1.13. | Google: Fiber Laser LiDAR Development |
5.1.14. | Google & Waymo: Automotive LiDAR Patent |
5.1.15. | O-Net: Fiber Laser LiDAR Investment in China |
5.1.16. | O-Net: Fiber Laser Product Launch |
5.1.17. | Lumibird: High-Performance 3D Scanning |
5.1.18. | Lumibird: Growth of LiDAR Business Division |
5.2. | High-Value Sensing Applications |
5.2.1. | Mid-IR Supercontinuum Fiber Lasers |
5.2.2. | Remote Multi-Species Gas Sensing |
5.2.3. | Disaster Management: LiDAR Vibration Measurement |
5.2.4. | Structural Health Monitoring of Vehicles & Infrastructure |
5.2.5. | Oil & Gas: Hydrocarbon Exploration & Production |
5.2.6. | Wind Sensing: LiDAR for Wind Turbines & Aerospace |
6. | EMERGING APPLICATIONS & CASE STUDIES: HEALTHCARE |
6.1. | Biomedical Imaging & Diagnostics: Multiphoton Microscopy |
6.1.1. | Multiphoton Medical Imaging |
6.1.2. | Mouse Hippocampus Imaging Tests |
6.1.3. | Retinal Disease Diagnostics |
6.1.4. | Cost-Effective Laser for Two Photon Microscopy |
6.1.5. | Development of New Lasers for Three Photon Microscopy |
6.2. | Medical Treatment & Surgery |
6.2.1. | Fiber Lasers for Medical Applications: SWOT Analysis |
6.2.2. | Photocoagulation Eye Surgery for Diabetic Damage |
6.2.3. | Vision Correction |
6.2.4. | Endoscopic Surgery: Laser Ablation of Soft Tissue |
6.2.5. | Kidney Stone Ablation |
6.2.6. | Skin Rejuvenation |
6.2.7. | Dentistry: Dental Implant Production & Gum Regeneration |
7. | MARKET FORECASTS |
7.1. | Market Analysis of Key Players |
7.1.1. | IPG Photonics: Fiber Laser Revenue Growth |
7.1.2. | IPG Photonics: High-Power & Low-Power Fiber Lasers |
7.1.3. | IPG Photonics: Revenue Growth by Fiber Laser Application |
7.1.4. | IPG Photonics: Material Processing |
7.1.5. | IPG Photonics: Medical & LiDAR |
7.1.6. | IPG Photonics: Growth by Geography |
7.1.7. | IPG Photonics: Chinese Laser Market Growth |
7.1.8. | SPI Lasers: Revenue Growth |
7.1.9. | SPI Lasers: Growth by Geography |
7.1.10. | Maxphotonics: Revenue Growth |
7.1.11. | Trumpf: Revenue Growth |
7.1.12. | Coherent & Rofin: Revenue Growth |
7.2. | Market Size & Growth 2018-2028 |
7.2.1. | Fiber Lasers Market Size & Key Players |
7.2.2. | Forecast Methodology: Data Collection |
7.2.3. | Forecast Methodology: Laser Market Considerations |
7.2.4. | Forecast Methodology: Key Player Considerations |
7.2.5. | Materials Processing: Prospects & Market Drivers |
7.2.6. | LiDAR & Sensing: Prospects & Market Drivers |
7.2.7. | Medical: Prospects & Market Drivers |
7.2.8. | LiDAR & Medical Technology Adoption Roadmap |
7.2.9. | Global Fiber Laser Market Forecast |
7.2.10. | Growth of Fiber Laser Market Segments |
7.2.11. | Global LiDAR & Medical Fiber Laser Market Forecast |
7.2.12. | Global Material Processing Market Forecast |
7.2.13. | Growth of Material Processing Market Segments |
7.2.14. | Market Forecast by Geography |
7.2.15. | Growth of Regional Fiber Laser Market Segments |
7.2.16. | Fiber Laser Unit Price 2017 |
7.2.17. | Global Production Volume Forecast |
7.2.18. | Fiber Laser Unit Price Forecast |
8. | APPENDIX |
8.1. | Appendix 1: IPG Photonics Financial Data |
8.2. | Appendix 2: IPG Photonics Financial Data |
8.3. | Appendix 3: SPI Lasers Financial Data |
8.4. | Appendix 4: Maxphotonics & Trumpf Financial Data |
8.5. | Appendix 5: Coherent & Rofin Financial Data |
8.6. | Appendix 6: Fiber Lasers Market Size & Key Players |
8.7. | Appendix 7: Global Fiber Laser Market Forecast |
8.8. | Appendix 8: Global Fiber Laser Market Forecast |
8.9. | Appendix 9: Global Fiber Laser Market Forecast |
9. | COMPANY PROFILES |
9.1. | Amplitude Systemes |
9.2. | Coherent |
9.3. | Connet Laser Technology |
9.4. | Convergent |
9.5. | Cybel, LLC |
9.6. | FANUC Corporation |
9.7. | Fujikura Ltd |
9.8. | Furukawa Electric Group |
9.9. | IPG Photonics |
9.10. | Lumentum Operations LLC |
9.11. | Lumibird (previously Keopsys Quantel) |
9.12. | Maxphotonics |
9.13. | MWTechnologies, LDA |
9.14. | Newport Corporation |
9.15. | NKT Photonics |
9.16. | nLight Corporation |
9.17. | Novae |
9.18. | NP Photonics |
9.19. | Shenzhen JPT |
9.20. | SPI Lasers Limited |
9.21. | TRUMPF |
9.22. | Wuhan Raycus |
スライド | 269 |
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企業数 | 22 |