市场调查报告书
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1114984
极端紫外光刻设备全球市场规模,份额和行业趋势分析报告:2022-2028按设备(光源(激光产生等离子,真空火花,气体放电),镜子,掩模),展望,地区预测Global Extreme Ultraviolet Lithography Systems Market Size, Share & Industry Trends Analysis Report By Equipment (Light Source (Laser Produced Plasmas, Vacuum Sparks, and Gas Discharges), Mirrors, Masks), By Regional Outlook and Forecast, 2022 - 2028 |
到 2028 年,全球极紫外曝光 (EUVL) 设备市场规模预计将达到 230.5 亿美元,在预测期内以 21.3% 的复合年增长率增长。
由于 EUVL 与其他曝光方法相比技术先进,因此预计未来几年市场将显着发展。此外,随着电子设备小型化需求的增加,预计极紫外光刻技术的市场将扩大。此外,未来极紫外光刻设备市场因微电子器件销量的增加有望扩大。
EUV 光掩模是通过堆迭交替的硅和钼层来反射光而形成的。相比之下,传统的光掩模在石英基板上使用单层铬来阻挡光线。 EUV掩膜是由40层硅和钼交替堆迭形成的多层膜,通过布拉格衍射反射极紫外光。反射率受波长和入射角的影响很大,短波长反射远离垂直入射,长波长反射接近垂直入射。
COVID-19 影响分析
COVID-19 的爆发对极端紫外线照射设备市场的增长产生了重大影响,因为它对供应链中的主要参与者产生了重大影响。 COVID-19 大流行还给全球市场带来了许多挑战,例如合格工人短缺、项目延误和由于全部或部分关闭而取消。.此外,新型冠状病毒的感染速度很快,出现了因各国政府的封锁而导致半导体产业完全停止的情况。许多公司使用工业自动化工具来提高效率和降低劳动力成本。
市场增长因素
智能手机的普及
在开发智能服务时,必须考虑各种因素,例如技术基础设施、可用于提供服务的信息和通信技术、最终用户的访问权限以及服务的可用性。此外,还有智能设备的迅速普及、移动网络的丰富、对高效智能应用的需求不断增长等多种原因。在手机和智能平台上提供信息服务时,应运用智慧政务框架中的基本原则。
医药行业的成长
随着新技术的引入和更经济有效的製造技术的引入,製药行业正在经历一场重大变革。此外,增加对该领域的投资也促进了市场的增长。机器人技术和人工智能的使用减少了製造车间的停机时间并减少了产品浪费 (AI)。此外,该市场推出了一次性产品,取代了传统的开放式转移製造方法。此外,向集成、智能、数据丰富和无纸化操作的范式转变会产生准确、无差错的输出。像这样的持续发现正在加速药物的生产。
市场限制
替代品跨市场渗透
光刻技术是一种基于光子的工艺,将图像投射到涂在硅晶片等基材上的感光乳剂上。在半导体工业中,这种光刻技术最常用于纳米电子产品的大规模生产。光刻技术的普及与能够高速传输大量数据的高度并行架构直接相关。例如,最先进的光刻设备每小时可以打印 150-300 毫米晶圆,二维图案分辨率为 40 纳米,吞吐量约为 1.8T 像素/秒。
设备展望
按设备划分,极紫外光刻设备市场分为掩模、光源、反射镜等。 2021年,镜面板块在极紫外光刻设备市场占据了很大的收入份额。在极紫外光刻中,没有透镜。由于大多数材料会吸收 EUV 光,因此透镜会吸收系统中的光。最新的系统结合了一个新的光学系统,在真空室内使用了一个超光滑的多层镜。
区域展望
按地区分析了北美、欧洲、亚太地区和 LAMEA 的极紫外光刻设备市场。 2021年,亚太地区将占据极紫外光刻市场最高的收入份额。这一区域市场的快速增长归功于该地区不断扩大的半导体产业。尤其是,中国继续在亚太地区的极紫外光刻设备市场占据主导地位。该国主要公司和政府机构对技术的积极投资也促进了该行业的增长。
The Global Extreme Ultraviolet Lithography (EUVL) Systems Market size is expected to reach $23.05 billion by 2028, rising at a market growth of 21.3 % CAGR during the forecast period.
Extreme ultraviolet lithography, or EUVL, is one of the leading next-generation lithography (NGL) techniques used to print lines as thin as 30 nm and create microprocessors and microchips. This novel and advanced technology are significantly being employed to design microcircuits. Strong ultraviolet laser beams that are reflected off of a silicon wafer are burned into the silicon wafer by the EUVL technology. A further extremely short wavelength solution that can be used up to the 10nm node is extreme UV lithography systems.
Extreme ultraviolet lithography is an optical lithography process that creates patterns by exposing reflective photomask to UV light, which is reflected onto a substrate covered in the photoresist. This process uses a range of extreme ultraviolet wavelengths, approximately encompassing a 2% FWHM bandwidth of about 13.5 nm. It is frequently used in the process of creating semiconductor devices.
Because EUVL systems are more advanced technologically than other lithography methods, the market for them is anticipated to develop significantly throughout the coming years. Additionally, the market for extreme-ultraviolet lithography technologies is anticipated to rise due to the imminent need for smaller electronic devices. Additionally, an increase in microelectronics device sales is anticipated to fuel the market for extreme-ultraviolet lithography equipment in the coming years.
By reflecting light, several alternating layers of silicon and molybdenum are used to create EUV photomasks. In contrast, traditional photomasks block the light using a single layer of chromium on a quartz substrate. A EUV mask is made up of 40 layers of silicon and molybdenum that alternate, acting as a multilayer to reflect the extreme ultraviolet light via Bragg diffraction. The wavelength and incident angle have a significant impact on the reflectance, with shorter wavelengths reflecting away from normal incidence and longer wavelengths reflecting near-normal incidence.
COVID-19 Impact Analysis
Due to a major impact on key companies in the supply chain, the COVID-19 outbreak had a significant impact on the growth of the extreme ultraviolet lithography systems market. In addition, the COVID-19 pandemic caused a number of challenges for the market, including a shortage of competent workers and delays or cancellations of projects due to full or partial lockdown, globally. Moreover, the transmission of coronavirus was rapid, and the semiconductor industry was been shut down entirely due to the lockdown imposed by governments of various countries. Because industrial automation tools boost corporate efficiency and cut labor expenses, many businesses use them in their operations.
Market Growth Factors
Rising Utilization Of Smartphones
The technological infrastructure, information and communication technologies available to the service to be offered, the access of the end-users to the service, and the service's usability are only a few of the factors that need to be considered while developing smart services. Additionally, there are other reasons that are readily available, such as the quick expansion of smart devices, the excellence of mobile networks, and the rising need for highly effective smart applications. The essential principles in the framework for smart government must be used when providing information services via mobile phones and smart platforms.
Increasing Growth Of The Pharmaceuticals Industry
With the introduction of new technology as well as more economical and effective manufacturing techniques, the pharmaceutical industry has experienced a significant transition. Additionally, the market growth has been positively driven by rising investment flow in this sector. The use of robotics and artificial intelligence reduces downtime on the manufacturing floor and the production of product waste (AI). Additionally, single-use disposable products have been launched in this market, replacing traditional open transfer manufacturing methods. Additionally, the paradigm change towards integrated, intelligent, and data-rich paperless operations has produced accurate and error-free output. Such continuous discoveries have accelerated the production of drugs.
Market Restraining Factors
Prevalence Of Alternatives Across The Market
An image is projected into a photosensitive emulsion that has been put on a substrate, such as a silicon wafer, in the process of optical lithography, a photon-based process. The semiconductor industry uses this optical lithography technique the most for producing Nano-electronics in large quantities. The widespread usage of optical lithography is directly related to the technology's extremely parallel architecture, which enables the quick transport of enormous volumes of data. For instance, cutting-edge lithography equipment today can print 150-300 mm wafers per hour with a 40-nm two-dimensional pattern resolution, which results in a throughput of about 1.8T pixels/s.
Equipment Outlook
By the Equipment, the Extreme Ultraviolet Lithography Systems Market is segregated into Mask, Light Source, Mirrors, and Others. In 2021, the mirrors segment witnessed a substantial revenue share of the extreme ultraviolet lithography systems market. For extreme ultraviolet lithography, there are no lenses. The lenses would absorb the light in the system because most materials absorb EUV light. In modern systems, manufacturers are integrating a new optical system that utilizes multilayer mirrors that are ultra-smooth in a vacuum chamber.
Regional Outlook
Region-Wise, the Extreme Ultraviolet Lithography Systems Market is analyzed across North America, Europe, Asia-Pacific, and LAMEA. In 2021, Asia Pacific accounted for the highest revenue share of the extreme ultraviolet lithography market. The surging growth of the regional market is attributed to the constantly expanding semiconductor industry of the region. China in particular continues to be a prominent player in the market for extreme-ultraviolet lithography systems in Asia-Pacific. Major businesses and government agencies in the nation are heavily investing in technology, which is also a major factor driving the growth of the segment.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include Intel Corporation, Samsung Electronics Co., Ltd. (Samsung Group), Toshiba Corporation, Carl Zeiss AG, Nikon Corporation, ASML Holding N.V., Canon, Inc., Taiwan Semiconductor Manufacturing Company Limited, Toppan Inc., and NTT Advanced Technology Corporation (Nippon Telegraph and Telephone Corporation).
Market Segments covered in the Report:
By Equipment
By Geography
Companies Profiled
Unique Offerings from KBV Research
List of Figures