市場調查報告書
商品編碼
1451511
2024-2032 年垂直腔表面發射雷射市場報告(按類型、材料、波長(紅光、近紅外線、短波紅外線)、應用、最終用途行業和地區)Vertical Cavity Surface Emitting Laser Market Report by Type, Material, Wavelength (Red, Near-infrared, Shortwave-infrared ), Application, End Use Industry, and Region 2024-2032 |
2023年全球垂直腔表面發射雷射(VCSEL)市場規模達到20億美元。展望未來, IMARC Group預計到2032年市場規模將達到75億美元,2024年複合年成長率(CAGR)為15.7% 2032.永續實踐和能源效率解決方案的廣泛採用、向需要感測器的工業 4.0 的持續轉變以及光電領域的不斷進步是推動市場的一些主要因素。
垂直腔表面發射雷射(VCSEL)是一種半導體雷射。它與傳統的邊緣發射雷射不同,傳統的邊緣發射雷射的光是從晶圓邊緣發射的。它從晶圓表面垂直發射光。它有一個垂直結構的活動區域,其中光線由兩個平行的鏡子產生和反射。其顯著優勢之一是能夠在切割和包裝之前進行測試和表徵,從而提高生產效率。它還提供了改進的光束質量,並且可以輕鬆整合到陣列中,從而允許多個半導體雷射器整合在單一晶片上。這對於需要高功率和平行處理的應用尤其有利,例如光纖通訊和感測。憑藉較低的功耗和高速運行的能力,它已在各個行業中找到了應用,標誌著其在光電元件領域的重要性。
智慧型手機在全球的普及主要推動了全球市場的發展。這開創了技術融合的新時代,設備配備了大量先進功能。從臉部辨識等生物辨識認證到擴增實境應用,這些半導體雷射在增強這些功能方面發揮關鍵作用。隨著智慧型手機製造商不斷創新並整合更複雜的技術,這些雷射在該領域的採用有望大幅成長。隨著全球工業逐漸轉向永續實踐,能源效率至關重要。在這方面,VCSEL 比傳統雷射具有明顯的優勢,因為它們功耗更低。此外,向工業 4.0 的持續轉變強調了感測器和自動化在製造過程中的重要性。它們對於精確的光學感測至關重要,並逐漸融入工業應用,對市場產生正面影響。此外,光電子領域的不斷進步導致創新應用和技術的發展,創造了積極的市場前景。
數據通訊和中心產品需求增加
全球對更高頻寬和更快資料通訊的需求不斷擴大,已成為全球市場的重要驅動力。隨著數位時代的成熟,企業和個人越來越傾向於雲端運算、線上串流媒體和即時資料分析,這自然需要強大的資料基礎設施。特別是,作為互聯世界的支柱的資料中心正在尋找能夠促進快速、高效的資料傳輸的元件。事實證明,由於其高調製速度、低功耗和高效的熱動力學,它們可以有效實現資料中心常見的短距離光纖連接。隨著未來幾年資料流量呈指數級成長,資料中心的產品需求將顯著成長。
先進感測技術的發展
隨著世界朝著更互聯和智慧的生態系統發展,人們越來越重視先進的感測技術。車輛中的臉部辨識、擴增實境 (AR)、3D 感測和高級駕駛員輔助系統 (ADAS) 等應用需要精確、快速的感測能力。除此之外,VCSEL 因其卓越的光束品質和形成平行處理陣列的能力而成為這些應用的首選。例如,在臉部辨識中,它們可以促進捕捉詳細 3D 輪廓所需的照明。隨著越來越多的設備和系統整合這些複雜的感測技術,產品需求正在加速成長。
VCSEL 的緊湊性和成本效益
VCSEL 技術的特點之一是其緊湊性和可擴展性。同時,傳統的邊緣發射雷射通常需要複雜的對準,這可能是小型化設備的瓶頸。相較之下,這些半導體雷射本質上適合密集陣列整合,從而可以開發更小但功能更強大的組件。這對於穿戴式裝置等空間非常寶貴的應用尤其有利。此外,它們可以在切割和封裝之前進行測試,從而提高產量並降低單位成本。這種緊湊性和成本效益的結合為各行業過渡到基於 VCSEL 的組件提供了強力的理由。因此,它對市場產生正面影響。
The global vertical cavity surface emitting laser (VCSEL) market size reached US$ 2.0 Billion in 2023. Looking forward, IMARC Group expects the market to reach US$ 7.5 Billion by 2032, exhibiting a growth rate (CAGR) of 15.7% during 2024-2032. The widespread adoption of sustainable practices, and energy efficiency solutions, the ongoing shift towards Industry 4.0 requiring sensors, and the continuous advancements in the field of optoelectronics are some of the major factors propelling the market.
A vertical cavity surface emitting laser (VCSEL) is a type of semiconductor laser. It is unlike traditional edge-emitting lasers where the light is emitted from the edge of the wafer. It emits light perpendicularly from the wafer's surface. It has a vertically structured active region where the light is generated and reflected by two parallel mirrors. One of its distinct advantages is its ability to be tested and characterized before being diced and packaged, enhancing production efficiency. It also offers improved beam quality and can be easily integrated into arrays, allowing multiple semiconductor lasers to be on a single chip. This is particularly beneficial for applications requiring high power and parallel processing, such as fiber optic communications and sensing. With lower power consumption and the capability to function at high speeds, it has found relevance in various industries, marking its importance in the realm of optoelectronic components.
The proliferation of smartphones across the globe majorly drives the global market. This has ushered in a new era of technological convergence, where devices come equipped with a plethora of advanced features. From biometric authentication such as facial recognition to augmented reality applications, these semiconductor lasers are playing a pivotal role in enhancing these functionalities. As smartphone manufacturers continuously innovate and integrate more sophisticated technologies, the adoption of these lasers in this segment is poised for substantial growth. With global industries progressively steering towards sustainable practices, energy efficiency is paramount. VCSELs have a distinct edge over conventional lasers in this regard, as they boast lower power consumption. In addition, the ongoing shift towards Industry 4.0 has emphasized the importance of sensors and automation in manufacturing processes. They are crucial for accurate optical sensing, and are gradually being integrated into industrial applications, positively influencing the market. Moreover, continuous advancements in the field of optoelectronics are leading to the development of innovative applications and technologies are creating a positive market outlook.
Increased Product Demand in Data Communication and Centers
The expanding global demand for higher bandwidth and faster data communication has emerged as a prominent driver for the global market. As the digital era matures, businesses and individuals are leaning more toward cloud computing, online streaming, and real-time data analytics, which naturally require robust data infrastructure. In particular, data centers, which are the backbone of an interconnected world, are seeking components that can facilitate swift and efficient data transfer. They have proven to be effective in achieving short-reach optical fiber connections commonly found in data centers due to their high modulation speed, low power consumption, and efficient thermal dynamics. With data traffic rising exponentially in the coming years, the product demand in data centers is witnessing significant growth.
Evolution of Advanced Sensing Technologies
As the world moves towards a more connected and intelligent ecosystem, there's a growing emphasis on advanced sensing technologies. Applications, such as facial recognition, augmented reality (AR), 3D sensing, and advanced driver-assistance systems (ADAS) in vehicles require precise and rapid sensing capabilities. Along with this, VCSELs have emerged as a preferred choice in these applications due to their superior beam quality and the ability to form arrays for parallel processing. For instance, in facial recognition, they facilitate the illumination required for capturing detailed 3D profiles. As more devices and systems integrate these sophisticated sensing technologies, the product demand is accelerating.
Compactness and Cost-Effectiveness of VCSELs
One of the hallmarks of VCSEL technology is its compactness and scalability. In confluence with this, traditional edge-emitting lasers often require complex alignment, which can be a bottleneck in miniaturizing devices. In contrast, these semiconductor lasers are inherently suitable for dense array integration, allowing for the development of smaller, yet more powerful components. This is particularly beneficial in applications like wearable devices, where space is at a premium. Additionally, they can be tested before dicing and packaging, which enhances yield and brings down the cost per unit. This combination of compactness and cost-effectiveness presents a strong case for industries to transition to VCSEL-based components. Therefore, it is positively influencing the market.
IMARC Group provides an analysis of the key trends in each segment of the global vertical cavity surface emitting laser (VCSEL) report, along with forecasts at the global, regional, and country levels from 2024-2032. Our report has categorized the market based on type, material, wavelength, application, and end use industry.
Multi-mode VCSEL
Single-mode VCSEL
Multi-mode VCSEL dominates the market
The report has provided a detailed breakup and analysis of the market based on the type. This includes multi-mode VCSEL and single-mode VCSEL. According to the report, multi-mode VCSEL represented the largest segment.
Multi-mode VCSEL type plays a pivotal role in shaping technological advancements and market demand. They have garnered significant attention due to their ability to transmit data over short distances at high speeds, making them ideal for data centers and other high-bandwidth applications. The increasing adoption of cloud computing, IoT devices, and 5G infrastructure has fueled the demand for efficient data transmission solutions, further propelling the growth of this segment. Additionally, advancements in manufacturing processes have led to cost reduction, making multi-mode variants more accessible to a broader range of applications. As the demand for faster and more reliable data communication continues to rise, the multi-mode type is expected to maintain its prominence as a vital component in the global industry, driving innovation and enhancing the overall efficiency of modern communication systems.
Gallium Arsenide
Gallium Nitride
Indium Phosphide
Others
Gallium arsenide dominates the market
A detailed breakup and analysis of the market based on the material have also been provided in the report. This includes gallium arsenide, gallium nitride, indium phosphide, and others. According to the report, gallium arsenide represented the largest segment.
The gallium arsenide material stands as a significant market driver in the global industry due to its exceptional properties and capabilities. It serves as the foundation for VCSELs, offering superior electron mobility and direct bandgap characteristics, enabling efficient light emission at desired wavelengths. These attributes make gallium arsenide an ideal semiconductor material for these lasers, allowing for high-performance optical devices with enhanced power efficiency and reliability. The ever-growing product demand in diverse applications, such as 3D sensing, facial recognition, and automotive LiDAR systems, further bolsters the need for gallium arsenide-based semiconductor laser variants. As industries increasingly rely on advanced optical technologies for data communication and sensing applications, gallium arsenide remains at the forefront, driving innovation and contributing to the continuous growth of the global industry. Manufacturers and researchers continue to explore new avenues to optimize gallium arsenide's properties, solidifying its position as a key market driver and paving the way for future breakthroughs in this domain.
Red (650-750 nm)
Near-infrared (750-1400 nm)
Shortwave-infrared (1400-3000 nm)
Near-infrared (750-1400 nm) dominates the market
The report has provided a detailed breakup and analysis of the market based on the wavelength. This includes red (650-750 nm), near-infrared (750-1400 nm), and shortwave-infrared (1400-3000 nm). According to the report, near-infrared (750-1400 nm) represented the largest segment.
The near-infrared (NIR) wavelength range of 750-1400 nm serves as a vital market driver in the global market, primarily due to its wide-ranging applications and inherent advantages. NIR VCSELs offer unique benefits, including high penetration through various materials, low dispersion in optical fibers, and reduced scattering, making them highly desirable for applications in telecommunications, data communications, and optical sensing. With the accelerating demand for high-speed data transmission and data centers, NIR semiconductor lasers have become instrumental in supporting high-bandwidth communication networks. In addition, their implementation in consumer electronics, medical devices, and automotive LiDAR systems has further fueled the market demand. As industries continually seek enhanced performance and efficiency in optical devices, the versatility and advantages of NIR wavelength semiconductor laser variants have propelled their prominence. Technological advancements and ongoing research continue to optimize their performance and reliability, further solidifying their role as a crucial market driver and affirming their position as a leading choice in the VCSEL industry.
Sensing
Data Communication
Industrial Heating
Laser Printing
LiDAR
Pulse Oximetry
Others
Sensing dominates the market
A detailed breakup and analysis of the market based on the application have also been provided in the report. This includes sensing, data communication, industrial heating, laser printing, LiDAR, pulse oximetry, and others. According to the report, sensing represented the largest segment.
Sensing applications have emerged as strong market drivers in the vertical cavity surface emitting laser (VCSEL) industry, due to the growing demand for high-precision and reliable sensing technologies across various sectors. They offer several key advantages that make them highly suitable for sensing applications. Their ability to emit light with high directionality and narrow spectral linewidth enables accurate and efficient detection of specific wavelengths, making them ideal for spectroscopic and gas sensing applications. Additionally, these semiconductor lasers can be modulated at high frequencies, allowing for rapid and precise measurements in time-sensitive applications, including distance sensing and 3D imaging. Moreover, the integration of VCSELs with other sensing technologies, such as photodiodes and microelectromechanical systems (MEMS), further enhances their performance and expands their potential applications in industrial, automotive, consumer electronics, and healthcare sectors. As industries continue to seek innovative sensing solutions, VCSEL-based sensing technologies are expected to maintain their position as crucial market drivers.
Telecom
Mobile and Consumer
Automotive
Medical
Aerospace and Defense
Others
The report has provided a detailed breakup and analysis of the market based on the wavelength. This includes telecom, mobile and consumer, automotive, medical, aerospace and defense, and others.
The mobile and consumer end-use industry has emerged as a prominent market driver in the industry, fueled by the increasing demand for advanced features and functionalities in smartphones, tablets, and other consumer electronic devices. They have revolutionized mobile technology by enabling facial recognition systems, 3D sensing for augmented reality applications, and precise gesture recognition, enhancing user experiences and device security. As consumers seek faster and more efficient data transmission, VCSELs have become essential components in high-speed optical communication technologies, including fiber-optic data links and Li-Fi. In addition, the adoption of VCSELs in proximity sensors, optical mice, and barcode scanners has further solidified its position in the consumer electronics market.
On the other hand, the telecom end-use industry serves as a crucial market driver in the global industry, primarily driven by the escalating demand for high-speed and reliable data transmission solutions. VCSELs have become integral components in telecommunications networks, enabling high-bandwidth data communication in optical fiber systems. Their ability to modulate data at gigabit speeds and beyond has revolutionized the telecommunications sector, facilitating the rapid transfer of vast amounts of data over long distances with minimal signal degradation. As 5G infrastructure continues to expand and evolve, VCSELs play a vital role in supporting the increased data rates and low-latency requirements of next-generation wireless networks.
North America
United States
Canada
Asia-Pacific
China
Japan
India
South Korea
Australia
Indonesia
Others
Europe
Germany
France
United Kingdom
Italy
Spain
Russia
Others
Latin America
Brazil
Mexico
Others
Middle East and Africa
Asia Pacific exhibits a clear dominance, accounting for the largest vertical cavity surface emitting laser (VCSEL) market share
The report has also provided a comprehensive analysis of all the major regional markets, which include North America (the United States and Canada); Asia Pacific (China, Japan, India, South Korea, Australia, Indonesia, and others); Europe (Germany, France, the United Kingdom, Italy, Spain, Russia, and others); Latin America (Brazil, Mexico, and others); and the Middle East and Africa. According to the report, Asia Pacific accounted for the largest market share.
The Asia Pacific region stands as a significant market driver in the vertical cavity surface emitting laser (VCSEL) industry, due to its robust economic growth, technological advancements, and a burgeoning demand for cutting-edge optical technologies. As the region continues to witness rapid industrialization and urbanization, there is an increasing need for high-speed data communication, advanced sensing solutions, and consumer electronic devices. VCSELs, with their versatile applications in data centers, telecommunications, sensing, and consumer electronics, have become instrumental in addressing these demands. Moreover, the Asia Pacific region is home to numerous leading semiconductor manufacturers and technology companies, fostering a competitive landscape that drives innovation and research in VCSEL technology. Additionally, government initiatives and investments in 5G infrastructure and other emerging technologies further fuel the demand for VCSELs, which are vital components in these advanced systems.
The global vertical cavity surface emitting laser (VCSEL) market is experiencing significant growth due to the escalating investments in R&D to improve the performance, efficiency, and reliability of their laser devices. They work on enhancing output power, reducing power consumption, and optimizing manufacturing processes to drive down costs. Along with this, the emergence of new applications, such as facial recognition, gesture sensing, automotive LiDAR, and medical applications is positively influencing the market. In addition, several VCSEL manufacturers collaborate with other companies, research institutions, and industry players to leverage complementary expertise and expand their reach into different sectors and markets. Therefore, it is significantly supporting the market. Apart from this, some companies in the VCSEL market are opting for vertical integration by manufacturing their own semiconductor materials or acquiring companies in the VCSEL supply chain. This approach helps ensure better control over the production process and quality of components., further impacting the market. Moreover, the introduction of customization and tailored solutions, enabling clients to have laser devices optimized for their unique applications is contributing to the market.
ams AG
Broadcom Inc.
II-VI Incorporated
Inneos LLC
IQE Plc
Leonardo Electronics US Inc.
Lumentum Operations LLC
Teledyne FLIR LLC (Teledyne Technologies Incorporated)
The TRUMPF Group
TT Electronics Plc
Vertilas GmbH
Vertilite Inc.
In May 2022, IQE Plc announced the release of the first 200 mm (8") VCSEL epiwafer to be sold commercially. By enabling a step-change in unit economics for compound semiconductors, IQE's 200mm epi wafers will drive the market's expansion.
In January 2023, The TRUMPF Group launched a brand-new multimode VCSEL with stable polarisation in order to meet the growing demand for sophisticated VCSEL sources. The most recent 940 nm multimode VCSEL with controlled polarisation is now being produced in large quantities and has a high yield.
In July 2023, ams AG launched EVIYOS 2.0, a new type of intelligent multipixel LED that allows for completely adaptable, dynamic headlamp operation and picture projection, introducing a revolutionary improvement in vehicle forward illumination.