Global Collimating Lens Market – Industry Analysis and Forecast (2020-2027) – By Light Source, Material, Wavelength, End Use and Region.

Global Collimating Lens Market size was valued at US$ 306.05 Mn in 2019 and is expected to reach US$ 484.13 Mn by 2027 to exhibit a CAGR of 5.9 % during the forecast period. Global Collimating Lens Market, by RegionTo know about the Research Methodology :- Request Free Sample Report The objective of the report is to present a comprehensive assessment of the market and contains thoughtful insights, facts, historical data, industry-validated market data and projections with a suitable set of assumptions and methodology. The report also helps in understanding the global collimating lens market dynamics, structure by identifying and analyzing the market segments and project the global market size. The report study has analyzed revenue impact of covid-19 pandemic on the sales revenue of market leaders, market followers and disrupters in the report and same is reflected in our analysis. Further, the report also focuses on the competitive analysis of key players by product, price, financial position, product portfolio, growth strategies, and regional presence. The report also provides PEST analysis, PORTER’s analysis, and SWOT analysis to address questions of shareholders to prioritizing the efforts and investment in the near future to the emerging segment in the global collimating lens market. Collimating is the method of accurately aligning light in a parallel fashion. For light measurement, this ensures that the light has negligible spread as it propagates. Collimating lenses are to ensure that the light that enters the instrument is parallel and deliver accurate readings. Collimating lenses provide many benefits as compared to other various lens types. Benefits of collimating lenses in many applications and advantages of using aspheric lenses over traditional spherical lenses in optics systems are the key factors driving the growth of the collimating lens market. Also, rapid developments in the manufacturing of LED lamps and rising demand and popularity for a wide range of optical devices, like spectrometer, microscopes, and measurement displays, is probably fueling this market across the world. However the growth of the market mostly restrained by the high costs of the lenses which might discourage those having less disposable income from purchasing the products. While some players are trying to slacken the cost. Restriction of hazardous substances compliance is the key challenge to market growth. Growing demand for collimating lenses in various applications and the increasing importance of fiber optics collimating lenses are expected to produce various opportunities for the global collimating lens market. Collimating lens segment is expected to grow rapidly during the forecast period owing to the increasing use of this lenses in the production of automobiles and growing preference for the vehicles equipped with LED headlamps boosts the sales and production of collimating lenses market. Lenses having a higher index of refraction can bend light more efficiently. The refractive index of glass varies from 1.5 to 1.9, while it ranges from 1.5 to 1.74 for plastics Because of that glass collimating type lens are provide efficient propagation light over the plastic lens. Also, lenses with higher refractive indices are thinner than lenses of the same power made with the materials of lower refractive indices, which supports the growth of the glass collimating lenses market. The automobile end-use industry held the largest share of the global collimating lens market in 2017 among the other. The growth of the automobile industry is attributed by the factors such as advancements in lighting technologies, like manufacturing of LED, need for unique designs, and available light colors are the main factors permitting the manufacturers to make lighting assemblies with new aspects. Also increasing demand for collimating lenses in the automobile segment owing to the rising adoption of LED headlamps in different types of vehicles are also boost the growth of the automobile industry in the global market in the forecast period. Increasing penetration of LED headlamps for automobile offers growth opportunities for the collimating lens market. According to the global collimating lenses market analysis the Asia Pacific market is expected to dominate the market during the forecast period owing to the rapidly emerging automobile sector of the region, in which optical systems are essential, increasing inclinations for automobiles that are generally armed with LED headlamps. Further original equipment manufacturers of collimating lenses have established their industrial units in this region are also projected to boost the growth of the market. The North American and European markets for collimating lens are predicted to show good growth in the years ahead because of growing demand and popularity of LED lighting systems and optical measurement systems, which are used for many applications. The collimating lens market in the Middle East and Africa and Latin America are anticipated to register a slow rate of growth in the forecast period.

Scope of the Global Collimating Lens Market: Inquire before buying

Global Collimating Lens Market, by Light Source

• Light Emitting Diode (LED) • Laser • Others (xenon lamp, Infrared light, and RGB)

Global Collimating Lens Market, by Material

• Glass • Plastic • Others (Crystal and silica)

Global Collimating Lens Market, by Wavelength

• Less than 1000 nm • 1000 nm - 1500 nm • 1500 nm - 2000 nm • Greater than 2000 nm

Global Collimating Lens Market, by End Use

• Automobile • Medical • LiDAR • Light and Display Measurement • Spectroscopy • Interferometry • Others (Environmental sensing, gas detection systems, communication, and agriculture measurement & monitoring system among others)

Global Collimating Lens Market, by Region

• North America • Europe • Asia-Pacific • Middle East & Africa • South America

Key Players operating in the Global Collimating Lens Market

• Lightpath Technologies, Inc. • Ocean Optics, Inc. • Ingeneric GmbH • Trioptics GmbH • Avantes Bv • Auer Lighting GmbH • IPG Photonics Corporation • Optikos Corporation • The Optoelectronics Co. Ltd. • Thorlabs Inc. • AMS Technologies AG • Axetris AG • Broadcom Limited • Bentham Instruments Limited • Casix, Inc. • Edmund Optics Inc. • Fisba AG • Hamamatsu Photonics K.K. • Opto-Line, Inc.

Global Collimating Lens Market

1. Preface 1.1. Report Scope and Market Segmentation 1.2. Research Highlights 1.3. Research Objectives 2. Assumptions and Research Methodology 2.1. Report Assumptions 2.2. Abbreviations 2.3. Research Methodology 2.3.1. Secondary Research 2.3.1.1. Secondary data 2.3.1.2. Secondary Sources 2.3.2. Primary Research 2.3.2.1. Data from Primary Sources 2.3.2.2. Breakdown of Primary Sources 3. Executive Summary: Global Collimating Lens Size, by Market Value (US$ Mn) 4. Market Overview 4.1. Introduction 4.2. Market Indicator 4.2.1. Drivers 4.2.2. Restraints 4.2.3. Opportunities 4.2.4. Challenges 4.3. Porter’s Analysis 4.4. Value Chain Analysis 4.5. Market Risk Analysis 4.6. SWOT Analysis 4.7. Global Collimating Lens Market Industry Trends and Emerging Technologies 4.8. Patent Registration 5. Supply Side and Demand Side Indicators 6. Global Collimating Lens Market Analysis and Forecast 6.1. Global Collimating Lens Market Size & Y-o-Y Growth Analysis 6.1.1. North America 6.1.2. Europe 6.1.3. Asia Pacific 6.1.4. Middle East & Africa 6.1.5. South America 7. Global Collimating Lens Market Analysis and Forecast, by Light Source 7.1. Introduction and Definition 7.2. Key Findings 7.3. Global Collimating Lens Market Value Share Analysis, by Light Source 7.4. Global Collimating Lens Market Size (US$ Mn) Forecast, by Light Source 7.5. Global Collimating Lens Market Analysis, by Light Source 7.6. Global Collimating Lens Market Attractiveness Analysis, by Light Source 8. Global Collimating Lens Market Analysis and Forecast, by Material 8.1. Introduction and Definition 8.2. Key Findings 8.3. Global Collimating Lens Market Value Share Analysis, by Material 8.4. Global Collimating Lens Market Size (US$ Mn) Forecast, by Material 8.5. Global Collimating Lens Market Analysis, by Material 8.6. Global Collimating Lens Market Attractiveness Analysis, by Material 9. Global Collimating Lens Market Analysis and Forecast, by Wavelength 9.1. Introduction and Definition 9.2. Key Findings 9.3. Global Collimating Lens Market Value Share Analysis, by Wavelength 9.4. Global Collimating Lens Market Size (US$ Mn) Forecast, by Wavelength 9.5. Global Collimating Lens Market Analysis, by Wavelength 9.6. Global Collimating Lens Market Attractiveness Analysis, by Wavelength 10. Global Collimating Lens Market Analysis and Forecast, by End Use 10.1. Introduction and Definition 10.2. Key Findings 10.3. Global Collimating Lens Market Value Share Analysis, by End Use 10.4. Global Collimating Lens Market Size (US$ Mn) Forecast, by End Use 10.5. Global Collimating Lens Market Analysis, by End Use 10.6. Global Collimating Lens Market Attractiveness Analysis, by End Use 11. Global Collimating Lens Market Analysis, by Region 11.1. Global Collimating Lens Market Value Share Analysis, by Region 11.2. Global Collimating Lens Market Size (US$ Mn) Forecast, by Region 11.3. Global Collimating Lens Market Attractiveness Analysis, by Region 12. North America Collimating Lens Market Analysis 12.1. Key Findings 12.2. North America Collimating Lens Market Overview 12.3. North America Collimating Lens Market Value Share Analysis, by Light Source 12.4. North America Collimating Lens Market Forecast, by Light Source 12.4.1. Light Emitting Diode (LED) 12.4.2. Laser 12.4.3. Others 12.5. North America Collimating Lens Market Value Share Analysis, by Material 12.6. North America Collimating Lens Market Forecast, by Material 12.6.1. Glass 12.6.2. Plastic 12.6.3. Others 12.7. North America Collimating Lens Market Value Share Analysis, by Wavelength 12.8. North America Collimating Lens Market Forecast, by Wavelength 12.8.1. Less than 1000 nm 12.8.2. 1000 nm - 1500 nm 12.8.3. 1500 nm - 2000 nm 12.8.4. Greater than 2000 nm 12.9. North America Collimating Lens Market Value Share Analysis, by End Use 12.10. North America Collimating Lens Market Forecast, by End Use 12.10.1. Automobile 12.10.2. Medical 12.10.3. LiDAR 12.10.4. Light and Display Measurement 12.10.5. Spectroscopy 12.10.6. Interferometry 12.10.7. Others 12.11. North America Collimating Lens Market Value Share Analysis, by Country 12.12. North America Collimating Lens Market Forecast, by Country 12.12.1. U.S. 12.12.2. Canada 12.13. North America Collimating Lens Market Analysis, by Country 12.14. U.S. Collimating Lens Market Forecast, by Light Source 12.14.1. Light Emitting Diode (LED) 12.14.2. Laser 12.14.3. Others 12.15. U.S. Collimating Lens Market Forecast, by Material 12.15.1. Glass 12.15.2. Plastic 12.15.3. Others 12.16. U.S. Collimating Lens Market Forecast, by Wavelength 12.16.1. Less than 1000 nm 12.16.2. 1000 nm - 1500 nm 12.16.3. 1500 nm - 2000 nm 12.16.4. Greater than 2000 nm 12.17. U.S. Collimating Lens Market Forecast, by End Use 12.17.1. Automobile 12.17.2. Medical 12.17.3. LiDAR 12.17.4. Light and Display Measurement 12.17.5. Spectroscopy 12.17.6. Interferometry 12.17.7. Others 12.18. Canada Collimating Lens Market Forecast, by Light Source 12.18.1. Light Emitting Diode (LED) 12.18.2. Laser 12.18.3. Others 12.19. Canada Collimating Lens Market Forecast, by Material 12.19.1. Glass 12.19.2. Plastic 12.19.3. Others 12.20. Canada Collimating Lens Market Forecast, by Wavelength 12.20.1. Less than 1000 nm 12.20.2. 1000 nm - 1500 nm 12.20.3. 1500 nm - 2000 nm 12.20.4. Greater than 2000 nm 12.21. Canada Collimating Lens Market Forecast, by End Use 12.21.1. Automobile 12.21.2. Medical 12.21.3. LiDAR 12.21.4. Light and Display Measurement 12.21.5. Spectroscopy 12.21.6. Interferometry 12.21.7. Others 12.22. North America Collimating Lens Market Attractiveness Analysis 12.22.1. By Light Source 12.22.2. By Material 12.22.3. By Wavelength 12.22.4. By End Use 12.23. PEST Analysis 12.24. Key Trends 12.25. Key Developments 13. Europe Collimating Lens Market Analysis 13.1. Key Findings 13.2. Europe Collimating Lens Market Overview 13.3. Europe Collimating Lens Market Value Share Analysis, by Light Source 13.4. Europe Collimating Lens Market Forecast, by Light Source 13.4.1. Light Emitting Diode (LED) 13.4.2. Laser 13.4.3. Others 13.5. Europe Collimating Lens Market Value Share Analysis, by Material 13.6. Europe Collimating Lens Market Forecast, by Material 13.6.1. Glass 13.6.2. Plastic 13.6.3. Others 13.7. Europe Collimating Lens Market Value Share Analysis, by Wavelength 13.8. Europe Collimating Lens Market Forecast, by Wavelength 13.8.1. Less than 1000 nm 13.8.2. 1000 nm - 1500 nm 13.8.3. 1500 nm - 2000 nm 13.8.4. Greater than 2000 nm 13.9. Europe Collimating Lens Market Value Share Analysis, by End Use 13.10. Europe Collimating Lens Market Forecast, by End Use 13.10.1. Automobile 13.10.2. Medical 13.10.3. LiDAR 13.10.4. Light and Display Measurement 13.10.5. Spectroscopy 13.10.6. Interferometry 13.10.7. Others 13.11. Europe Collimating Lens Market Value Share Analysis, by Country 13.12. Europe Collimating Lens Market Forecast, by Country 13.12.1. Germany 13.12.2. U.K. 13.12.3. France 13.12.4. Italy 13.12.5. Spain 13.12.6. Rest of Europe 13.13. Europe Collimating Lens Market Analysis, by Country 13.14. Germany Collimating Lens Market Forecast, by Light Source 13.14.1. Light Emitting Diode (LED) 13.14.2. Laser 13.14.3. Others 13.15. Germany Collimating Lens Market Forecast, by Material 13.15.1. Glass 13.15.2. Plastic 13.15.3. Others 13.16. Germany Collimating Lens Market Forecast, by Wavelength 13.16.1. Less than 1000 nm 13.16.2. 1000 nm - 1500 nm 13.16.3. 1500 nm - 2000 nm 13.16.4. Greater than 2000 nm 13.17. Germany Collimating Lens Market Forecast, by End Use 13.17.1. Automobile 13.17.2. Medical 13.17.3. LiDAR 13.17.4. Light and Display Measurement 13.17.5. Spectroscopy 13.17.6. Interferometry 13.17.7. Others 13.18. U.K. Collimating Lens Market Forecast, by Light Source 13.18.1. Light Emitting Diode (LED) 13.18.2. Laser 13.18.3. Others 13.19. U.K. Collimating Lens Market Forecast, by Material 13.19.1. Glass 13.19.2. Plastic 13.19.3. Others 13.20. U.K. Collimating Lens Market Forecast, by Wavelength 13.20.1. Less than 1000 nm 13.20.2. 1000 nm - 1500 nm 13.20.3. 1500 nm - 2000 nm 13.20.4. Greater than 2000 nm 13.21. U.K. Collimating Lens Market Forecast, by End Use 13.21.1. Automobile 13.21.2. Medical 13.21.3. LiDAR 13.21.4. Light and Display Measurement 13.21.5. Spectroscopy 13.21.6. Interferometry 13.21.7. Others 13.22. France Collimating Lens Market Forecast, by Light Source 13.22.1. Light Emitting Diode (LED) 13.22.2. Laser 13.22.3. Others 13.23. France Collimating Lens Market Forecast, by Material 13.23.1. Glass 13.23.2. Plastic 13.23.3. Others 13.24. France Collimating Lens Market Forecast, by Wavelength 13.24.1. Less than 1000 nm 13.24.2. 1000 nm - 1500 nm 13.24.3. 1500 nm - 2000 nm 13.24.4. Greater than 2000 nm 13.25. France Collimating Lens Market Forecast, by End Use 13.25.1. Automobile 13.25.2. Medical 13.25.3. LiDAR 13.25.4. Light and Display Measurement 13.25.5. Spectroscopy 13.25.6. Interferometry 13.25.7. Others 13.26. Italy Collimating Lens Market Forecast, by Light Source 13.26.1. Light Emitting Diode (LED) 13.26.2. Laser 13.26.3. Others 13.27. Italy Collimating Lens Market Forecast, by Material 13.27.1. Glass 13.27.2. Plastic 13.27.3. Others 13.28. Italy Collimating Lens Market Forecast, by Wavelength 13.28.1. Less than 1000 nm 13.28.2. 1000 nm - 1500 nm 13.28.3. 1500 nm - 2000 nm 13.28.4. Greater than 2000 nm 13.29. Italy Collimating Lens Market Forecast, by End Use 13.29.1. Automobile 13.29.2. Medical 13.29.3. LiDAR 13.29.4. Light and Display Measurement 13.29.5. Spectroscopy 13.29.6. Interferometry 13.29.7. Others 13.30. Spain Collimating Lens Market Forecast, by Light Source 13.30.1. Light Emitting Diode (LED) 13.30.2. Laser 13.30.3. Others 13.31. Spain Collimating Lens Market Forecast, by Material 13.31.1. Glass 13.31.2. Plastic 13.31.3. Others 13.32. Spain Collimating Lens Market Forecast, by Wavelength 13.32.1. Less than 1000 nm 13.32.2. 1000 nm - 1500 nm 13.32.3. 1500 nm - 2000 nm 13.32.4. Greater than 2000 nm 13.33. Spain Collimating Lens Market Forecast, by End Use 13.33.1. Automobile 13.33.2. Medical 13.33.3. LiDAR 13.33.4. Light and Display Measurement 13.33.5. Spectroscopy 13.33.6. Interferometry 13.33.7. Others 13.34. Rest of Europe Collimating Lens Market Forecast, by Light Source 13.34.1. Light Emitting Diode (LED) 13.34.2. Laser 13.34.3. Others 13.35. Rest of Europe Collimating Lens Market Forecast, by Material 13.35.1. Glass 13.35.2. Plastic 13.35.3. Others 13.36. Rest of Europe Collimating Lens Market Forecast, by Wavelength 13.36.1. Less than 1000 nm 13.36.2. 1000 nm - 1500 nm 13.36.3. 1500 nm - 2000 nm 13.36.4. Greater than 2000 nm 13.37. Rest Of Europe Collimating Lens Market Forecast, by End Use 13.37.1. Automobile 13.37.2. Medical 13.37.3. LiDAR 13.37.4. Light and Display Measurement 13.37.5. Spectroscopy 13.37.6. Interferometry 13.37.7. Others 13.38. Europe Collimating Lens Market Attractiveness Analysis 13.38.1. By Light Source 13.38.2. By Material 13.38.3. By Wavelength 13.38.4. By End Use 13.39. PEST Analysis 13.40. Key Trends 13.41. Key Developments 14. Asia Pacific Collimating Lens Market Analysis 14.1. Key Findings 14.2. Asia Pacific Collimating Lens Market Overview 14.3. Asia Pacific Collimating Lens Market Value Share Analysis, by Light Source 14.4. Asia Pacific Collimating Lens Market Forecast, by Light Source 14.4.1. Light Emitting Diode (LED) 14.4.2. Laser 14.4.3. Others 14.5. Asia Pacific Collimating Lens Market Value Share Analysis, by Material 14.6. Asia Pacific Collimating Lens Market Forecast, by Material 14.6.1. Glass 14.6.2. Plastic 14.6.3. Others 14.7. Asia Pacific Collimating Lens Market Value Share Analysis, by Wavelength 14.8. Asia Pacific Collimating Lens Market Forecast, by Wavelength 14.8.1. Less than 1000 nm 14.8.2. 1000 nm - 1500 nm 14.8.3. 1500 nm - 2000 nm 14.8.4. Greater than 2000 nm 14.9. Asia Pacific Collimating Lens Market Value Share Analysis, by End Use 14.10. Asia Pacific Collimating Lens Market Forecast, by End Use 14.10.1. Automobile 14.10.2. Medical 14.10.3. LiDAR 14.10.4. Light and Display Measurement 14.10.5. Spectroscopy 14.10.6. Interferometry 14.10.7. Others 14.11. Asia Pacific Collimating Lens Market Value Share Analysis, by Country 14.12. Asia Pacific Collimating Lens Market Forecast, by Country 14.12.1. China 14.12.2. India 14.12.3. Japan 14.12.4. ASEAN 14.12.5. Rest of Asia Pacific 14.13. Asia Pacific Collimating Lens Market Analysis, by Country 14.14. China Collimating Lens Market Forecast, by Light Source 14.14.1. Light Emitting Diode (LED) 14.14.2. Laser 14.14.3. Others 14.15. China Collimating Lens Market Forecast, by Material 14.15.1. Glass 14.15.2. Plastic 14.15.3. Others 14.16. China Collimating Lens Market Forecast, by Wavelength 14.16.1. Less than 1000 nm 14.16.2. 1000 nm - 1500 nm 14.16.3. 1500 nm - 2000 nm 14.16.4. Greater than 2000 nm 14.17. China Collimating Lens Market Forecast, by End Use 14.17.1. Automobile 14.17.2. Medical 14.17.3. LiDAR 14.17.4. Light and Display Measurement 14.17.5. Spectroscopy 14.17.6. Interferometry 14.17.7. Others 14.18. India Collimating Lens Market Forecast, by Light Source 14.18.1. Light Emitting Diode (LED) 14.18.2. Laser 14.18.3. Others 14.19. India Collimating Lens Market Forecast, by Material 14.19.1. Glass 14.19.2. Plastic 14.19.3. Others 14.20. India Collimating Lens Market Forecast, by Wavelength 14.20.1. Less than 1000 nm 14.20.2. 1000 nm - 1500 nm 14.20.3. 1500 nm - 2000 nm 14.20.4. Greater than 2000 nm 14.21. India Collimating Lens Market Forecast, by End Use 14.21.1. Automobile 14.21.2. Medical 14.21.3. LiDAR 14.21.4. Light and Display Measurement 14.21.5. Spectroscopy 14.21.6. Interferometry 14.21.7. Others 14.22. Japan Collimating Lens Market Forecast, by Light Source 14.22.1. Light Emitting Diode (LED) 14.22.2. Laser 14.22.3. Others 14.23. Japan Collimating Lens Market Forecast, by Material 14.23.1. Glass 14.23.2. Plastic 14.23.3. Others 14.24. Japan Collimating Lens Market Forecast, by Wavelength 14.24.1. Less than 1000 nm 14.24.2. 1000 nm - 1500 nm 14.24.3. 1500 nm - 2000 nm 14.24.4. Greater than 2000 nm 14.25. Japan Collimating Lens Market Forecast, by End Use 14.25.1. Automobile 14.25.2. Medical 14.25.3. LiDAR 14.25.4. Light and Display Measurement 14.25.5. Spectroscopy 14.25.6. Interferometry 14.25.7. Others 14.26. ASEAN Collimating Lens Market Forecast, by Light Source 14.26.1. Light Emitting Diode (LED) 14.26.2. Laser 14.26.3. Others 14.27. ASEAN Collimating Lens Market Forecast, by Material 14.27.1. Glass 14.27.2. Plastic 14.27.3. Others 14.28. ASEAN Collimating Lens Market Forecast, by Wavelength 14.28.1. Less than 1000 nm 14.28.2. 1000 nm - 1500 nm 14.28.3. 1500 nm - 2000 nm 14.28.4. Greater than 2000 nm 14.29. ASEAN Collimating Lens Market Forecast, by End Use 14.29.1. Automobile 14.29.2. Medical 14.29.3. LiDAR 14.29.4. Light and Display Measurement 14.29.5. Spectroscopy 14.29.6. Interferometry 14.29.7. Others 14.30. Rest of Asia Pacific Collimating Lens Market Forecast, by Light Source 14.30.1. Light Emitting Diode (LED) 14.30.2. Laser 14.30.3. Others 14.31. Rest of Asia Pacific Collimating Lens Market Forecast, by Material 14.31.1. Glass 14.31.2. Plastic 14.31.3. Others 14.32. Rest of Asia Pacific Collimating Lens Market Forecast, by Wavelength 14.32.1. Less than 1000 nm 14.32.2. 1000 nm - 1500 nm 14.32.3. 1500 nm - 2000 nm 14.32.4. Greater than 2000 nm 14.33. Rest of Asia Pacific Collimating Lens Market Forecast, by End Use 14.33.1. Automobile 14.33.2. Medical 14.33.3. LiDAR 14.33.4. Light and Display Measurement 14.33.5. Spectroscopy 14.33.6. Interferometry 14.33.7. Others 14.34. Asia Pacific Collimating Lens Market Attractiveness Analysis 14.34.1. By Light Source 14.34.2. By Material 14.34.3. By Wavelength 14.34.4. By End Use 14.35. PEST Analysis 14.36. Key Trends 14.37. Key Developments 15. Middle East & Africa Collimating Lens Market Analysis 15.1. Key Findings 15.2. Middle East & Africa Collimating Lens Market Overview 15.3. Middle East & Africa Collimating Lens Market Value Share Analysis, by Light Source 15.4. Middle East & Africa Collimating Lens Market Forecast, by Light Source 15.4.1. Light Emitting Diode (LED) 15.4.2. Laser 15.4.3. Others 15.5. Middle East & Africa Collimating Lens Market Value Share Analysis, by Material 15.6. Middle East & Africa Collimating Lens Market Forecast, by Material 15.6.1. Glass 15.6.2. Plastic 15.6.3. Others 15.7. Middle East & Africa Collimating Lens Market Value Share Analysis, by Wavelength 15.8. Middle East & Africa Collimating Lens Market Forecast, by Wavelength 15.8.1. Less than 1000 nm 15.8.2. 1000 nm - 1500 nm 15.8.3. 1500 nm - 2000 nm 15.8.4. Greater than 2000 nm 15.9. Middle East & Africa Collimating Lens Market Value Share Analysis, by End Use 15.10. Middle East & Africa Collimating Lens Market Forecast, by End Use 15.10.1. Automobile 15.10.2. Medical 15.10.3. LiDAR 15.10.4. Light and Display Measurement 15.10.5. Spectroscopy 15.10.6. Interferometry 15.10.7. Others 15.11. Middle East & Africa Collimating Lens Market Value Share Analysis, by Country 15.12. Middle East & Africa Collimating Lens Market Forecast, by Country 15.12.1. GCC 15.12.2. South Africa 15.12.3. Rest of Middle East & Africa 15.13. Middle East & Africa Collimating Lens Market Analysis, by Country 15.14. GCC Collimating Lens Market Forecast, by Light Source 15.14.1. Light Emitting Diode (LED) 15.14.2. Laser 15.14.3. Others 15.15. GCC Collimating Lens Market Forecast, by Material 15.15.1. Glass 15.15.2. Plastic 15.15.3. Others 15.16. GCC Collimating Lens Market Forecast, by Wavelength 15.16.1. Less than 1000 nm 15.16.2. 1000 nm - 1500 nm 15.16.3. 1500 nm - 2000 nm 15.16.4. Greater than 2000 nm 15.17. GCC Collimating Lens Market Forecast, by End Use 15.17.1. Automobile 15.17.2. Medical 15.17.3. LiDAR 15.17.4. Light and Display Measurement 15.17.5. Spectroscopy 15.17.6. Interferometry 15.17.7. Others 15.18. South Africa Collimating Lens Market Forecast, by Light Source 15.18.1. Light Emitting Diode (LED) 15.18.2. Laser 15.18.3. Others 15.19. South Africa Collimating Lens Market Forecast, by Material 15.19.1. Glass 15.19.2. Plastic 15.19.3. Others 15.20. South Africa Collimating Lens Market Forecast, by Wavelength 15.20.1. Less than 1000 nm 15.20.2. 1000 nm - 1500 nm 15.20.3. 1500 nm - 2000 nm 15.20.4. Greater than 2000 nm 15.21. South Africa Collimating Lens Market Forecast, by End Use 15.21.1. Automobile 15.21.2. Medical 15.21.3. LiDAR 15.21.4. Light and Display Measurement 15.21.5. Spectroscopy 15.21.6. Interferometry 15.21.7. Others 15.22. Rest of Middle East & Africa Collimating Lens Market Forecast, by Light Source 15.22.1. Light Emitting Diode (LED) 15.22.2. Laser 15.22.3. Others 15.23. Rest of Middle East & Africa Collimating Lens Market Forecast, by Material 15.23.1. Glass 15.23.2. Plastic 15.23.3. Others 15.24. Rest of Middle East & Africa Collimating Lens Market Forecast, by Wavelength 15.24.1. Less than 1000 nm 15.24.2. 1000 nm - 1500 nm 15.24.3. 1500 nm - 2000 nm 15.24.4. Greater than 2000 nm 15.25. Rest of Middle East & Africa Collimating Lens Market Forecast, by End Use 15.25.1. Automobile 15.25.2. Medical 15.25.3. LiDAR 15.25.4. Light and Display Measurement 15.25.5. Spectroscopy 15.25.6. Interferometry 15.25.7. Others 15.26. Middle East & Africa Collimating Lens Market Attractiveness Analysis 15.26.1. By Light Source 15.26.2. By Material 15.26.3. By Wavelength 15.26.4. By End Use 15.27. PEST Analysis 15.28. Key Trends 15.29. Key Developments 16. South America Collimating Lens Market Analysis 16.1. Key Findings 16.2. South America Collimating Lens Market Overview 16.3. South America Collimating Lens Market Value Share Analysis, by Light Source 16.4. South America Collimating Lens Market Forecast, by Light Source 16.4.1. Light Emitting Diode (LED) 16.4.2. Laser 16.4.3. Others 16.5. South America Collimating Lens Market Value Share Analysis, by Material 16.6. South America Collimating Lens Market Forecast, by Material 16.6.1. Glass 16.6.2. Plastic 16.6.3. Others 16.7. South America Collimating Lens Market Value Share Analysis, by Wavelength 16.8. South America Collimating Lens Market Forecast, by Wavelength 16.8.1. Less than 1000 nm 16.8.2. 1000 nm - 1500 nm 16.8.3. 1500 nm - 2000 nm 16.8.4. Greater than 2000 nm 16.9. South America Collimating Lens Market Value Share Analysis, by End Use 16.10. South America Collimating Lens Market Forecast, by End Use 16.10.1. Automobile 16.10.2. Medical 16.10.3. LiDAR 16.10.4. Light and Display Measurement 16.10.5. Spectroscopy 16.10.6. Interferometry 16.10.7. Others 16.11. South America Collimating Lens Market Value Share Analysis, by Country 16.12. South America Collimating Lens Market Forecast, by Country 16.12.1. Brazil 16.12.2. Mexico 16.12.3. Rest of South America 16.13. South America Collimating Lens Market Analysis, by Country 16.14. Brazil Collimating Lens Market Forecast, by Light Source 16.14.1. Light Emitting Diode (LED) 16.14.2. Laser 16.14.3. Others 16.15. Brazil Collimating Lens Market Forecast, by Material 16.15.1. Glass 16.15.2. Plastic 16.15.3. Others 16.16. Brazil Collimating Lens Market Forecast, by Wavelength 16.16.1. Less than 1000 nm 16.16.2. 1000 nm - 1500 nm 16.16.3. 1500 nm - 2000 nm 16.16.4. Greater than 2000 nm 16.17. Brazil Collimating Lens Market Forecast, by End Use 16.17.1. Automobile 16.17.2. Medical 16.17.3. LiDAR 16.17.4. Light and Display Measurement 16.17.5. Spectroscopy 16.17.6. Interferometry 16.17.7. Others 16.18. Mexico Collimating Lens Market Forecast, by Light Source 16.18.1. Light Emitting Diode (LED) 16.18.2. Laser 16.18.3. Others 16.19. Mexico Collimating Lens Market Forecast, by Material 16.19.1. Glass 16.19.2. Plastic 16.19.3. Others 16.20. Mexico Collimating Lens Market Forecast, by Wavelength 16.20.1. Less than 1000 nm 16.20.2. 1000 nm - 1500 nm 16.20.3. 1500 nm - 2000 nm 16.20.4. Greater than 2000 nm 16.21. Mexico Collimating Lens Market Forecast, by End Use 16.21.1. Automobile 16.21.2. Medical 16.21.3. LiDAR 16.21.4. Light and Display Measurement 16.21.5. Spectroscopy 16.21.6. Interferometry 16.21.7. Others 16.22. Rest of South America Collimating Lens Market Forecast, by Light Source 16.22.1. Light Emitting Diode (LED) 16.22.2. Laser 16.22.3. Others 16.23. Rest of South America Collimating Lens Market Forecast, by Material 16.23.1. Glass 16.23.2. Plastic 16.23.3. Others 16.24. Rest of South America Collimating Lens Market Forecast, by Wavelength 16.24.1. Less than 1000 nm 16.24.2. 1000 nm - 1500 nm 16.24.3. 1500 nm - 2000 nm 16.24.4. Greater than 2000 nm 16.25. Rest of South America Collimating Lens Market Forecast, by End Use 16.25.1. Automobile 16.25.2. Medical 16.25.3. LiDAR 16.25.4. Light and Display Measurement 16.25.5. Spectroscopy 16.25.6. Interferometry 16.25.7. Others 16.26. South America Collimating Lens Market Attractiveness Analysis 16.26.1. By Light Source 16.26.2. By Material 16.26.3. By Wavelength 16.26.4. By End Use 16.27. PEST Analysis 16.28. Key Trends 16.29. Key Developments 17. Company Profiles 17.1. Market Share Analysis, by Company 17.2. Competition Matrix 17.2.1. Competitive Benchmarking of key players by price, presence, market share, Applications and R&D investment 17.2.2. New Product Launches and Product Enhancements 17.2.3. Market Consolidation 17.2.3.1. M&A by Regions, Investments with Applications 17.2.3.2. M&A Key Players, Forward Integration and Backward Integration 17.3. Company Profiles: Key Players 17.3.1. Lightpath Technologies, Inc. 17.3.1.1. Company Overview 17.3.1.2. Financial Overview 17.3.1.3. Product Portfolio 17.3.1.4. Business Strategy 17.3.1.5. Recent Developments 17.3.1.6. Developments Footprints 17.3.2. Ocean Optics, Inc. 17.3.3. Ingeneric GmbH 17.3.4. Trioptics GmbH 17.3.5. Avantes Bv 17.3.6. Auer Lighting GmbH 17.3.7. IPG Photonics Corporation 17.3.8. Optikos Corporation 17.3.9. The Optoelectronics Co. Ltd. 17.3.10. Thorlabs Inc. 17.3.11. AMS Technologies AG 17.3.12. Axetris AG 17.3.13. Broadcom Limited 17.3.14. Bentham Instruments Limited 17.3.15. Casix, Inc. 17.3.16. Edmund Optics Inc. 17.3.17. Fisba AG 17.3.18. Hamamatsu Photonics K.K. 17.3.19. Opto-Line, Inc. 18. Primary Key Insights

About This Report

Report ID 27413
Category Electronics
Published Date Jan 2020
Updated Date
Contact Us