Over the last decade, the usage of the ultraviolet (UV) thermal processing has grown significantly and UV technology adoption will continue to accelerate the growth of the semiconductor market. Extensive utilization of UV thermal processing across various application segments especially in semiconductor sector for modifying the film properties, wafer heating at a uniform temperature is predicted to boost the market growth in the coming years. Furthermore, ultraviolet thermal processing devices improve product efficiency during wafer processing and development of integrated circuit which is a major factor to accelerate the growth of the Ultraviolet Thermal Processing market.
Moreover, in commercial application there is no such other product which can replace ultraviolet thermal processing technology which in turn is driving the Ultraviolet (UV) Thermal Processing Market during the forecast period. The global Ultraviolet Thermal Processing market is likely to grow at aneven rate during the projection period from 2017 to 2025.
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The Ultra Violet (UV) Thermal Processing market is primarily fragmented on the basis of type, application and region. On the basis of type, the Ultraviolet (UV) Thermal Process market has been segmented into front-end-of-line (FEOL) and back-end-of-line (BEOL). Ultraviolet thermal processing applications increases the different factor such as increase mechanical strength, cross linking, removes porogen (pore generation material) from non-dense ULK-films which is acting as a driving factor in the growth of Ultraviolet (UV) Thermal Processing market during the forecast period.
Continuous technological advancement of ultraviolet (UV) thermal processing devices to enhance better performance during the time of low dielectric constants for optimal thermal conductivity which requires semiconductor scaling. This in turn is acting as a driving factor in the growth of Ultraviolet (UV) Thermal Processing market in the coming years.
Moreover, Ultraviolet (UV) Thermal Processing market has been segmented on the basis of application which includes oxidization, nitration, annealing and gas flow processing among others. The growth witnessed in the demand for semiconductor devicesis expected to positively influence the revenue of Ultraviolet Thermal Processing market during the forecast period. In addition, enormous research and development activities on UV processing technology in order to improve the manufacturing processes such as chemical-mechanical planarization (CMP) and final packaging of filmsin semiconductor is also expected to augment the demand of this technology during the forecast period.Moreover, high cost of installation charges for manufacturer is restraining the growth of this market.
In addition, technological advancement of ultraviolet thermal processing device is able to repair the damage through chemical bond reconstruction during the time of wafer films processing which is acting as an opportunity factor in the growth of Ultraviolet (UV) Thermal Processing market in the coming years.
Geographically, Ultraviolet (UV) Thermal Processing market is segmented into North America, Europe, Asia Pacific, Middle East and Africa (MEA) and Latin America. The growth in demand for Ultraviolet Thermal Processing market is majorly driven by Asia Pacific.Asia Pacific is expected to witness the most encouraging market in the coming years, owing to presence of large number of semiconductor manufacturers across this region. In addition, increasing government initiatives followed by focus on research and development activities is also acting as a driving factor in the growth for France, Russia, and the US market. In addition, North America is expected to create an better opportunity for Ultraviolet Thermal Processing market and it is also expected that North America held the second largest market share within the next forecast period from 2017- 2025.
The global Ultraviolet (UV) Thermal Processing market is dominated by major market leaders. Some of the leading players in the marketare Lam Research (The U.S), Axcelis (The U.S), Flint Group (U.S),Applied Materials, Inc. (The U.S), Tokyo Electrons (Japan), NXP Semiconductor (The U.S), Research Electro-Optics, Inc.(The U.S) and Panasonic Crop. (Japan) among others.