#Indium Phosphide Wafer Market
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Indium Phosphide Wafer Market - Growth, Trends, COVID-19 Impact ... - GlobeNewswire
Indium Phosphide Wafer Market - Growth, Trends, COVID-19 Impact ... ��GlobeNewswire http://dlvr.it/SfsH1x
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Indium Phosphide Wafer Market Size Forecast to Reach $82.8 Million by 2026
Indium Phosphide Wafer Market Size is forecast to reach $82.8 million by 2026, at a CAGR of 8.12% during 2021-2026. The indium phosphide wafers offers a superior electron velocity as compared to other popular semiconductors such as silicon. Indium phosphide (InP) wafer is manufactured from indium iodide and white phosphorus at the temperature of 400 °C and it is manufactured by integrating the clean components at high pressure and high temperature. The InP wafers are finding their application in optoelectronics as they have higher electron mobility, lower power consumption, higher thermal conductivity, higher frequency, and low noise performance compared to other wafers. Indium phosphide emits and detects wavelengths above the range of 1000nm owing to which it is also extensively used in high-speed fiber optic communication and photonic integrated circuits. The InP wafer substrates are highly used in concentrator photovoltaics manufactured by smart cut layer transfer technology. Growth of Telecommunication sector, Microelectronics and others have driven the growth of the market as InP is used as a substrate for both laser diodes and photodiodes in optical transceivers.
Indium Phosphide Wafer Market Segment Analysis - By Diameter
The 6-inch wafer segment has highest market value of 28.18% in 2020, as it is highly used in telecommunication and data communication along with the use in photoelectronic circuit applications. Photonic integrated circuits are usually fabricated with a wafer-scale technology (involving lithography) on substrates (often called chips) such as Indium phosphide. In Mexico, the Defense spending in the country is rapidly increasing due to increased threats from other countries. In 2019, Mexico had a defense budget of around $ 6,568 million in 2019, a 13.6% increase from 2019, and it is expected to increase in the forecast period. In addition, 6-inch InP wafers are highly used in high power and high-frequency optoelectronic devices including laser diodes, photodetectors, LED, optical transceivers, which are operating in optical fiber communication systems.
Request for Sample Report @ https://www.industryarc.com/pdfdownload.php?id=509500
Report Price: $ 5900 (Single User License)
Indium Phosphide Wafer Market Segment Analysis - By End Users
Telecommunications is expected to witness a highest CAGR of 9.01% during the forecast period, owing to the demand for optical fibers in wireless network. Telecommunication systems offer higher order of magnitude along with energy efficiencies, and lower environmental impact, compared with incumbent systems, e.g. copper. Due to which the InP wafers are used. With the increasing requirement of more data transfer at higher speeds, transceiver technology is migrating to the technology offering better rates (100GbE and 400GbE), for which InP is more favorable and the ability to support the continued explosion of storage requirements and growth of data transmission over the coming years is becoming paramount. Communications networks across the world operate through the use of InP lasers that connect switches and routers within and between data centers and throughout the Internet which has propelled the growth of the market.
Indium Phosphide Wafer Market Segment Analysis - By Geography
Indium Phosphide Wafer Market in Asia-Pacific region held significant market share of xx% in 2020. Growth of consumer electronics sector accompanied with wireless network infrastructure are set to drive the Indium Phosphide Wafer Market here. Rapid implementation of advanced technology to build efficient and cost-effective data storage infrastructure has helped businesses invest in data centres. This in turn has influenced the development of optics in the in the countries such as China, India, Japan and others where InP wafers ensures faster interconnects between data centers. In Australia, investment by the Federal Government in the roll-out of the national broadband network (NBN) has underpinned the rapid growth of the optical fiber industry in the area over the past five years. The NBN aims to create an ground breaking connectivity network to access Internet-based data and entertainment for all Australian households, businesses, and government agencies. All these factors have boosted the market growth in the APAC region.
Indium Phosphide Wafer Market Drivers
Growth of Telecommunication sector:
The growth of the telecommunication sector due to the evolution of wireless technology is witnessing a significant growth for the indium phosphide wafer. The upsurge in usage of advanced optoelectronics devices and fiber optic communications have majorly driven the market growth. According to UNCTAD, there are 4,422 colocation data centres among which 80% are present in the developed countries and 40% are accounted in United States. The digital economy of United States contributed to 6.9% of GDP in narrow definition and 21.6% of GDP in broad definition in 2019. In addition, according to Intelligence Node, the number of smartphone users in United States crossed 260 million in April 2020, and smartphone shipments reached $161 million in 2019. This indicates the growth of active optical cables in this region as it provides longer distance link, less bulky physical cabling and active high digital speed electric interface facing the host ASIC. InP wafers are suitable in the production of optical fiber transmission windows which are found in lasers and photodetectors. This contributed towards the positive growth of the market.
Growth of InP wafers in the Medical sector:
The developments in the medical devices and the need for Medical imaging technology has enabled the design and production of InP wafer substrates in medical devices for monitoring blood pressure level and for usage in x-ray cargo scanners, and others. These wafers are used to control devices for surgery and monitoring of vital signs as well. The InP wafers are used in minimally invasive surgery (MIS). These MIS surgery is adopted by more and more patients, as this technique allows surgeons to insert thin instruments and an endoscope into patient’s abdomen cavity with only three small incisions. These factors have driven the growth of the market.
Inquiry Before Buying @ https://www.industryarc.com/reports/request-quote?id=509500
Indium Phosphide Wafer Market Challenges:
Fabrication challenges:
The fabrication of Indium Phosphide wafer substrates used in optoelectronics have become more complex as the defects are smaller and harder to find. In addition, the small manufacturers are facing challenges in buying the equipment as it has high price which are hindering the market growth. Due to growth in wireless technology, there is demand for faster substrates and wafers to optimize the performance of these chips, the industry requires new and better fabrication techniques with good electrical characteristics, smaller form factors, and more I/O capabilities.
Indium Phosphide Wafer Market Landscape
Product launches, acquisitions, Partnerships and R&D activities are key strategies adopted by players in the Indium Phosphide Wafer Market. Indium Phosphide Wafer Market top 10 companies include Logitech Ltd., JX Nippon Mining and Metals Corporation, Sumitomo Electric Industries Ltd., Ding Ten Industries Inc., Wafer World Inc., Semiconductor Wafer Inc., Western Minmetals (SC) Corporation, AXT, Inc., Powerway Advanced Materials Co. Ltd., Century Goldray Semiconductor Co. Ltd. Among others
Acquisitions/Product Launches
In 2021, AXT, Inc. launched 6-inch diameter indium phosphide compound semiconductor substrate. It has high uniformity and low defect density used in communication system.
In 2019, a new lab of INP laser fab facility in China was opened up by source photonics to double the production capacity of photonic components and lasers. The company will be able to double its production of semiconductor lasers and related components for optical transceivers.
Key Takeaways
High adoption of advanced semiconductor devices such as transistors, MEMS and others in industries owing to emerging technologies and precision in telecommunications set to drive the market growth.
Telecommunications sector is expected to witness a highest CAGR of 9.01% during forecast period, owing to investments on wireless communication infrastructure in countries such as China and India. These investments have created the opportunities for Indium Phosphide Wafer Equipment.
APAC is witnessing a major growth in the market owing to the surge in automotive industry and Consumer electronics industry where these indium phosphide wafers are used for advanced communication systems and manufacturing of portable devices.
Related Reports
A.Wafer Fab Equipment Market
https://www.industryarc.com/Research/Wafer-Fab-Equipment-Market-Research-507503
B.Wafer And Integrated Circuits Market
https://www.industryarc.com/Research/Wafer-And-Integrated-Circuits-Market-Research-505881
For more Electronics Market reports, please click here
#Indium Phosphide Wafer Market#Indium Phosphide Wafer Market share#Indium Phosphide Wafer Market size
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Indium Phosphide Wafer Market Size Forecast to Reach $82.8 Million by 2026
Indium Phosphide Wafer Market Size is forecast to reach $82.8 million by 2026, at a CAGR of 8.12% during 2021-2026. The indium phosphide wafers offers a superior electron velocity as compared to other popular semiconductors such as silicon. Indium phosphide (InP) wafer is manufactured from indium iodide and white phosphorus at the temperature of 400 °C and it is manufactured by integrating the clean components at high pressure and high temperature. The InP wafers are finding their application in optoelectronics as they have higher electron mobility, lower power consumption, higher thermal conductivity, higher frequency, and low noise performance compared to other wafers. Indium phosphide emits and detects wavelengths above the range of 1000nm owing to which it is also extensively used in high-speed fiber optic communication and photonic integrated circuits. The InP wafer substrates are highly used in concentrator photovoltaics manufactured by smart cut layer transfer technology. Growth of Telecommunication sector, Microelectronics and others have driven the growth of the market as InP is used as a substrate for both laser diodes and photodiodes in optical transceivers.
Indium Phosphide Wafer Market Segment Analysis - By Diameter
The 6-inch wafer segment has highest market value of 28.18% in 2020, as it is highly used in telecommunication and data communication along with the use in photoelectronic circuit applications. Photonic integrated circuits are usually fabricated with a wafer-scale technology (involving lithography) on substrates (often called chips) such as Indium phosphide. In Mexico, the Defense spending in the country is rapidly increasing due to increased threats from other countries. In 2019, Mexico had a defense budget of around $ 6,568 million in 2019, a 13.6% increase from 2019, and it is expected to increase in the forecast period. In addition, 6-inch InP wafers are highly used in high power and high-frequency optoelectronic devices including laser diodes, photodetectors, LED, optical transceivers, which are operating in optical fiber communication systems.
Request for Sample Report @ https://www.industryarc.com/pdfdownload.php?id=509500
Report Price: $ 5900 (Single User License)
Indium Phosphide Wafer Market Segment Analysis - By End Users
Telecommunications is expected to witness a highest CAGR of 9.01% during the forecast period, owing to the demand for optical fibers in wireless network. Telecommunication systems offer higher order of magnitude along with energy efficiencies, and lower environmental impact, compared with incumbent systems, e.g. copper. Due to which the InP wafers are used. With the increasing requirement of more data transfer at higher speeds, transceiver technology is migrating to the technology offering better rates (100GbE and 400GbE), for which InP is more favorable and the ability to support the continued explosion of storage requirements and growth of data transmission over the coming years is becoming paramount. Communications networks across the world operate through the use of InP lasers that connect switches and routers within and between data centers and throughout the Internet which has propelled the growth of the market.
Indium Phosphide Wafer Market Segment Analysis - By Geography
Indium Phosphide Wafer Market in Asia-Pacific region held significant market share of xx% in 2020. Growth of consumer electronics sector accompanied with wireless network infrastructure are set to drive the Indium Phosphide Wafer Market here. Rapid implementation of advanced technology to build efficient and cost-effective data storage infrastructure has helped businesses invest in data centres. This in turn has influenced the development of optics in the in the countries such as China, India, Japan and others where InP wafers ensures faster interconnects between data centers. In Australia, investment by the Federal Government in the roll-out of the national broadband network (NBN) has underpinned the rapid growth of the optical fiber industry in the area over the past five years. The NBN aims to create an ground breaking connectivity network to access Internet-based data and entertainment for all Australian households, businesses, and government agencies. All these factors have boosted the market growth in the APAC region.
Indium Phosphide Wafer Market Drivers
Growth of Telecommunication sector:
The growth of the telecommunication sector due to the evolution of wireless technology is witnessing a significant growth for the indium phosphide wafer. The upsurge in usage of advanced optoelectronics devices and fiber optic communications have majorly driven the market growth. According to UNCTAD, there are 4,422 colocation data centres among which 80% are present in the developed countries and 40% are accounted in United States. The digital economy of United States contributed to 6.9% of GDP in narrow definition and 21.6% of GDP in broad definition in 2019. In addition, according to Intelligence Node, the number of smartphone users in United States crossed 260 million in April 2020, and smartphone shipments reached $161 million in 2019. This indicates the growth of active optical cables in this region as it provides longer distance link, less bulky physical cabling and active high digital speed electric interface facing the host ASIC. InP wafers are suitable in the production of optical fiber transmission windows which are found in lasers and photodetectors. This contributed towards the positive growth of the market.
Growth of InP wafers in the Medical sector:
The developments in the medical devices and the need for Medical imaging technology has enabled the design and production of InP wafer substrates in medical devices for monitoring blood pressure level and for usage in x-ray cargo scanners, and others. These wafers are used to control devices for surgery and monitoring of vital signs as well. The InP wafers are used in minimally invasive surgery (MIS). These MIS surgery is adopted by more and more patients, as this technique allows surgeons to insert thin instruments and an endoscope into patient’s abdomen cavity with only three small incisions. These factors have driven the growth of the market.
Inquiry Before Buying @ https://www.industryarc.com/reports/request-quote?id=509500
Indium Phosphide Wafer Market Challenges:
Fabrication challenges:
The fabrication of Indium Phosphide wafer substrates used in optoelectronics have become more complex as the defects are smaller and harder to find. In addition, the small manufacturers are facing challenges in buying the equipment as it has high price which are hindering the market growth. Due to growth in wireless technology, there is demand for faster substrates and wafers to optimize the performance of these chips, the industry requires new and better fabrication techniques with good electrical characteristics, smaller form factors, and more I/O capabilities.
Indium Phosphide Wafer Market Landscape
Product launches, acquisitions, Partnerships and R&D activities are key strategies adopted by players in the Indium Phosphide Wafer Market. Indium Phosphide Wafer Market top 10 companies include Logitech Ltd., JX Nippon Mining and Metals Corporation, Sumitomo Electric Industries Ltd., Ding Ten Industries Inc., Wafer World Inc., Semiconductor Wafer Inc., Western Minmetals (SC) Corporation, AXT, Inc., Powerway Advanced Materials Co. Ltd., Century Goldray Semiconductor Co. Ltd. Among others
Acquisitions/Product Launches
In 2021, AXT, Inc. launched 6-inch diameter indium phosphide compound semiconductor substrate. It has high uniformity and low defect density used in communication system.
In 2019, a new lab of INP laser fab facility in China was opened up by source photonics to double the production capacity of photonic components and lasers. The company will be able to double its production of semiconductor lasers and related components for optical transceivers.
Key Takeaways
High adoption of advanced semiconductor devices such as transistors, MEMS and others in industries owing to emerging technologies and precision in telecommunications set to drive the market growth.
Telecommunications sector is expected to witness a highest CAGR of 9.01% during forecast period, owing to investments on wireless communication infrastructure in countries such as China and India. These investments have created the opportunities for Indium Phosphide Wafer Equipment.
APAC is witnessing a major growth in the market owing to the surge in automotive industry and Consumer electronics industry where these indium phosphide wafers are used for advanced communication systems and manufacturing of portable devices.
Related Reports
A.Wafer Fab Equipment Market
https://www.industryarc.com/Research/Wafer-Fab-Equipment-Market-Research-507503
B.Wafer And Integrated Circuits Market
https://www.industryarc.com/Research/Wafer-And-Integrated-Circuits-Market-Research-505881
For more Electronics Market reports, please click here
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Indium Phosphide Wafer Market Size Forecast to Reach $82.8 Million by 2026
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Epi Wafer Market Reflect Impressive Growth Rate To During 2030
Transparency Market Research delivers key insights on the global Epi wafer market. In terms of revenue, the global Epi wafer market is estimated to expand at a CAGR of ~6% during the forecast period, owing to numerous factors regarding which TMR offers thorough insights and forecasts in its report on the global Epi wafer market.
The global Epi wafer market is broadly affected by several factors, including rising demand for Epi wafers in consumer electronic devices and an increase in adoption of Epi wafers in RF devices. The market for Epi wafer systems is likely to take off and it will be interesting to see how the contending innovation-based new technologies change in the years ahead.
Major Key Players of the Epi Wafer Market are:
Desert Silicon Inc., Electronics and Materials Corporation Ltd., EpiWorks Inc., Global Wafers Japan Co. Ltd., Intelligent Epitaxy Technology Inc., IQE PLC, Jenoptic AG, MOSPEC Semiconductor Corporation, Nichia Corporation, SHOWA DENKO K.K., Siltronic AG, and Visual Photonics Epitaxy Co. Ltd. The market also consists of some local manufacturers.
Get a sample copy of “Epi Wafer Market” at: https://www.transparencymarketresearch.com/sample/sample.php?flag=S&rep_id=79986
Epi Wafer Market: Dynamics
Epi wafers are extensively used in consumer electronic devices such as smartphones, smartwatches, tablets, and smart TVs to enhance their performance and accuracy. Continuous development in wafer size leads to the development of consumer electronic products enabled with infrared detectors and sensors to operate devices conveniently. As the need for IR applications grows, manufacturers have begun to utilize appropriate IR materials in the design of Plano-optics as per the requirement of applications. Furthermore, demand for IR detectors is increasing with growing safety and security concerns in hotels, hospitals, offices, and airports, among others, which is anticipated to surge the demand for Epi wafers. Thus, an increase in the adoption of consumer electronic devices is expected to drive the growth of the global Epi wafer market during the forecast period.
In the telecommunications industry, high frequency signals are required for transmission of signals over long distances with minimum loss of signal strength. RF devices such as Wi-Fi wireless internet devices, Zigbee wireless devices, cordless telephones, and other devices are significantly used in offices, and commercial and residential places. The use of silicon wafers in RF devices is ideal, as they are capable of lowering the coupling between devices and provide low-loss substrates for high speed and system integration. Thus, increasing demand for RF devices in the global telecommunications sector is projected to have a positive impact on the global Epi wafer market during the forecast period.
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Various factors can affect the results of Epi wafers. The high resistivity silicon substrate is important to improve signal isolation and minimize substrate cross-talk in radiofrequency. The availability of a large diameter size is helpful to manufacturing large amounts of semiconductor and power devices at low manufacturing costs. In Epi wafers, float zone (above 200mm) silicon wafers are generally not greater than 200mm (8”) due to the surface tension limitations during growth and thus not suitable for modern CMOS processing where the standard wafer diameter is 12.’’ However, this limitation is expected to be resolved with continuous technological advancement, which will help to produce power devices and detector/sensor products at a lower cost.
Thus, this factor is projected to have a moderately negative impact on the global Epi wafer market during the forecast period.
Global Epi Wafer Market: Segmentation
Epi Wafer Market, by Material
Gallium
Arsenic
Gallium Nitride (GaN)
Gallium Arsenide (GaAs)
Indium Phosphide Gallium Arsenide (InGaAs)
Indium Phosphide (InP)
Others
Epi Wafer Market, by Wafer Size
50mm to 100mm
100mm to 150mm
150mm-200mm
Above 200mm
Epi Wafer Market, by Application
Microelectronics
Optoelectronics
RF Microwave Applications
Others
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Indium Phosphide Wafer Market Size is forecast to reach $82.8 million by 2026, at a CAGR of 8.12% during 2021-2026. The indium phosphide wafers offers a superior electron velocity as compared to other popular semiconductors such as silicon. Indium phosphide (InP) wafer is manufactured from indium iodide and white phosphorus at the temperature of 400 °C and it is manufactured by integrating the clean components at high pressure and high temperature.
0 notes
Text
Indium Phosphide Wafer Market Size Forecast to Reach $82.8 Million by 2026
Indium Phosphide Wafer Market Size is forecast to reach $82.8 million by 2026, at a CAGR of 8.12% during 2021-2026.
0 notes
Text
Indium Phosphide Wafer Market - Growth, Trends, COVID-19 Impact, and Forecasts (2022 - 2027) - GlobeNewswire
Indium Phosphide Wafer Market - Growth, Trends, COVID-19 Impact, and Forecasts (2022 - 2027) GlobeNewswire http://dlvr.it/SdGYk8
0 notes
Text
Indium Phosphide Wafer Market Size Forecast to Reach $82.8 Million by 2026
Indium Phosphide Wafer Market Size is forecast to reach $82.8 million by 2026, at a CAGR of 8.12% during 2021-2026. The indium phosphide wafers offers a superior electron velocity as compared to other popular semiconductors such as silicon. Indium phosphide (InP) wafer is manufactured from indium iodide and white phosphorus at the temperature of 400 °C and it is manufactured by integrating the clean components at high pressure and high temperature. The InP wafers are finding their application in optoelectronics as they have higher electron mobility, lower power consumption, higher thermal conductivity, higher frequency, and low noise performance compared to other wafers. Indium phosphide emits and detects wavelengths above the range of 1000nm owing to which it is also extensively used in high-speed fiber optic communication and photonic integrated circuits. The InP wafer substrates are highly used in concentrator photovoltaics manufactured by smart cut layer transfer technology. Growth of Telecommunication sector, Microelectronics and others have driven the growth of the market as InP is used as a substrate for both laser diodes and photodiodes in optical transceivers.
Indium Phosphide Wafer Market Segment Analysis - By Diameter
The 6-inch wafer segment has highest market value of 28.18% in 2020, as it is highly used in telecommunication and data communication along with the use in photoelectronic circuit applications. Photonic integrated circuits are usually fabricated with a wafer-scale technology (involving lithography) on substrates (often called chips) such as Indium phosphide. In Mexico, the Defense spending in the country is rapidly increasing due to increased threats from other countries. In 2019, Mexico had a defense budget of around $ 6,568 million in 2019, a 13.6% increase from 2019, and it is expected to increase in the forecast period. In addition, 6-inch InP wafers are highly used in high power and high-frequency optoelectronic devices including laser diodes, photodetectors, LED, optical transceivers, which are operating in optical fiber communication systems.
Request for Sample Report @ https://www.industryarc.com/pdfdownload.php?id=509500
Report Price: $ 5900 (Single User License)
Indium Phosphide Wafer Market Segment Analysis - By End Users
Telecommunications is expected to witness a highest CAGR of 9.01% during the forecast period, owing to the demand for optical fibers in wireless network. Telecommunication systems offer higher order of magnitude along with energy efficiencies, and lower environmental impact, compared with incumbent systems, e.g. copper. Due to which the InP wafers are used. With the increasing requirement of more data transfer at higher speeds, transceiver technology is migrating to the technology offering better rates (100GbE and 400GbE), for which InP is more favorable and the ability to support the continued explosion of storage requirements and growth of data transmission over the coming years is becoming paramount. Communications networks across the world operate through the use of InP lasers that connect switches and routers within and between data centers and throughout the Internet which has propelled the growth of the market.
Indium Phosphide Wafer Market Segment Analysis - By Geography
Indium Phosphide Wafer Market in Asia-Pacific region held significant market share of xx% in 2020. Growth of consumer electronics sector accompanied with wireless network infrastructure are set to drive the Indium Phosphide Wafer Market here. Rapid implementation of advanced technology to build efficient and cost-effective data storage infrastructure has helped businesses invest in data centres. This in turn has influenced the development of optics in the in the countries such as China, India, Japan and others where InP wafers ensures faster interconnects between data centers. In Australia, investment by the Federal Government in the roll-out of the national broadband network (NBN) has underpinned the rapid growth of the optical fiber industry in the area over the past five years. The NBN aims to create an ground breaking connectivity network to access Internet-based data and entertainment for all Australian households, businesses, and government agencies. All these factors have boosted the market growth in the APAC region.
Indium Phosphide Wafer Market Drivers
Growth of Telecommunication sector:
The growth of the telecommunication sector due to the evolution of wireless technology is witnessing a significant growth for the indium phosphide wafer. The upsurge in usage of advanced optoelectronics devices and fiber optic communications have majorly driven the market growth. According to UNCTAD, there are 4,422 colocation data centres among which 80% are present in the developed countries and 40% are accounted in United States. The digital economy of United States contributed to 6.9% of GDP in narrow definition and 21.6% of GDP in broad definition in 2019. In addition, according to Intelligence Node, the number of smartphone users in United States crossed 260 million in April 2020, and smartphone shipments reached $161 million in 2019. This indicates the growth of active optical cables in this region as it provides longer distance link, less bulky physical cabling and active high digital speed electric interface facing the host ASIC. InP wafers are suitable in the production of optical fiber transmission windows which are found in lasers and photodetectors. This contributed towards the positive growth of the market.
Growth of InP wafers in the Medical sector:
The developments in the medical devices and the need for Medical imaging technology has enabled the design and production of InP wafer substrates in medical devices for monitoring blood pressure level and for usage in x-ray cargo scanners, and others. These wafers are used to control devices for surgery and monitoring of vital signs as well. The InP wafers are used in minimally invasive surgery (MIS). These MIS surgery is adopted by more and more patients, as this technique allows surgeons to insert thin instruments and an endoscope into patient’s abdomen cavity with only three small incisions. These factors have driven the growth of the market.
Inquiry Before Buying @ https://www.industryarc.com/reports/request-quote?id=509500
Indium Phosphide Wafer Market Challenges:
Fabrication challenges:
The fabrication of Indium Phosphide wafer substrates used in optoelectronics have become more complex as the defects are smaller and harder to find. In addition, the small manufacturers are facing challenges in buying the equipment as it has high price which are hindering the market growth. Due to growth in wireless technology, there is demand for faster substrates and wafers to optimize the performance of these chips, the industry requires new and better fabrication techniques with good electrical characteristics, smaller form factors, and more I/O capabilities.
Indium Phosphide Wafer Market Landscape
Product launches, acquisitions, Partnerships and R&D activities are key strategies adopted by players in the Indium Phosphide Wafer Market. Indium Phosphide Wafer Market top 10 companies include Logitech Ltd., JX Nippon Mining and Metals Corporation, Sumitomo Electric Industries Ltd., Ding Ten Industries Inc., Wafer World Inc., Semiconductor Wafer Inc., Western Minmetals (SC) Corporation, AXT, Inc., Powerway Advanced Materials Co. Ltd., Century Goldray Semiconductor Co. Ltd. Among others
Acquisitions/Product Launches
In 2021, AXT, Inc. launched 6-inch diameter indium phosphide compound semiconductor substrate. It has high uniformity and low defect density used in communication system.
In 2019, a new lab of INP laser fab facility in China was opened up by source photonics to double the production capacity of photonic components and lasers. The company will be able to double its production of semiconductor lasers and related components for optical transceivers.
Key Takeaways
High adoption of advanced semiconductor devices such as transistors, MEMS and others in industries owing to emerging technologies and precision in telecommunications set to drive the market growth.
Telecommunications sector is expected to witness a highest CAGR of 9.01% during forecast period, owing to investments on wireless communication infrastructure in countries such as China and India. These investments have created the opportunities for Indium Phosphide Wafer Equipment.
APAC is witnessing a major growth in the market owing to the surge in automotive industry and Consumer electronics industry where these indium phosphide wafers are used for advanced communication systems and manufacturing of portable devices.
Related Reports
A.Wafer Fab Equipment Market
https://www.industryarc.com/Research/Wafer-Fab-Equipment-Market-Research-507503
B.Wafer And Integrated Circuits Market
https://www.industryarc.com/Research/Wafer-And-Integrated-Circuits-Market-Research-505881
For more Electronics Market reports, please click here
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Compound Semiconductor Materials Market Report | Size, Growth, Demand, Scope, Opportunities and Forecast 2020-2030
Compound Semiconductor Materials Market: Global Industry Analysis 2015-2019 & Opportunity Assessment 2020-2030
A recent market study published by Future Market Insights (FMI) on the compound semiconductor materials market includes the global industry analysis of 2015-2019 & opportunity assessment for 2020-2030, and delivers a comprehensive assessment of the most important market dynamics. Our analysts conduct thorough research on the historical as well as current growth parameters of the market to obtain growth prospects with maximum precision.
Compound Semiconductor Materials Market: Taxonomy
Material Type
Gallium Arsenide (GaAs)
Gallium Nitride (GaN)
Indium Phosphide (InP)
Zinc Selenide (ZnSe)
Silicon Carbide (SiC)
Gallium Phosphorous (GaP)
Visit For Sample>>https://www.futuremarketinsights.com/reports/sample/rep-gb-12410
Application
Laser
Optical Fibers
Photovoltaic Cells
Optical Devices
LED Epitaxial Wafers
Report Chapters
Chapter 01 – Executive Summary
The report initiates with the executive summary of the compound semiconductor materials market, which includes a summary of the key findings and statistics of the market. It also includes the demand & supply-side trends pertaining to the compound semiconductor materials market.
Chapter 02 – Market Overview
In this chapter, readers can find the definition and a detailed taxonomy of the compound semiconductor materials market, which will help them understand the basic information about the compound semiconductor materials market. Along with this, comprehensive information about compound semiconductor materials is provided in this section. This section also highlights the inclusions and exclusions, which help readers understand the scope of the compound semiconductor materials market report.
Chapter 03 – Key Market Trends
The compound semiconductor materials market report provides key market trends that are expected to significantly impact market growth during the forecast period. Detailed industry trends are provided in this section.
For any queries linked with the report, ask an analyst >>https://www.futuremarketinsights.com/ask-question/rep-gb-12410
Chapter 04 – Key Success Factors
This section includes successful factors and strategies adopted by key market participants.
Chapter 05 – Global Compound Semiconductor Materials Market Demand Analysis 2015-2019 and Forecast, 2020-2030
This section explains the global market volume analysis and forecast for the compound semiconductor materials market for the forecast period of 2020-2030. This chapter includes a detailed analysis of the historical compound semiconductor materials market, along with projections for the forecast period.
Chapter 06 – Global Compound Semiconductor Materials Market - Pricing Analysis
In this chapter, pricing analysis of the compound semiconductor materials market at the regional level has been provided.
Chapter 07 - Global Compound Semiconductor Materials Market Demand (in Value or Size in US$ Mn) Analysis 2015-2019 and Forecast, 2020-2030
This section explains the global market value analysis and forecast for the compound semiconductor materials market for the forecast period of 2020-2030. This chapter includes a detailed analysis of the historical compound semiconductor materials market, along with an opportunity analysis of the future. Readers can also find the absolute $ opportunity for the current year (2020), and incremental $ opportunity for the forecast period (2020–2030).
Chapter 08 – Market Background
This chapter explains key macroeconomic factors that are expected to influence the growth of the compound semiconductor materials market over the forecast period. Along with the macroeconomic factors, this section also highlights the value chain, supply chain, forecast factors, and value chain analysis for the compound semiconductor materials market. Moreover, in-depth information about the market dynamics and their impact analysis on the market have been provided in the successive section.
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Chapter 09 – Global Compound Semiconductor Materials Market Analysis 2015-2019 & Opportunity Assessment 2020-2030, Material Type
Based on product type, the compound semiconductor materials market is segmented into gallium arsenide (GaAs), gallium nitride (GaN), indium phosphide (InP), zinc selenide (ZnSe), silicon carbide (SiC), gallium phosphorous (GaP), aluminum gallium indium phosphide (AlGaInP), aluminum gallium arsenide (AlGaAs). In this chapter, readers can find information about the key trends and developments in the compound semiconductor materials market and market attractiveness analysis based on material type.
Chapter 10 – Global Compound Semiconductor Materials Market Analysis 2015-2019& Opportunity Assessment 2020-2030, Application
Based on application, the compound semiconductor materials market is segmented into laser, optical fibers, photovoltaic cells, optical devices, LED epitaxial wafers, power amplifiers, and others. In this chapter, readers can find information about the key trends and developments in the compound semiconductor materials market and market attractiveness analysis based on Application.
Chapter 11 – Global Compound Semiconductor Materials Market Analysis 2015-2019& Opportunity Assessment 2020-2030, by Region
This chapter explains how the compound semiconductor materials market will grow across various geographic regions such as North America, Latin America, Europe, East Asia, South Asia & Pacific, and Middle East & Africa.
Chapter 12 – North America Compound Semiconductor Materials Market Analysis 2015-2019 & Opportunity Assessment 2020-2030
This chapter includes a detailed analysis of the growth of the North America compound semiconductor materials market, along with a country-wise assessment that includes the U.S. and Canada. Readers can also find the pricing analysis, regional trends, and market growth based on application and countries in North America.
Chapter 13 – Latin America Compound Semiconductor Materials Market Analysis 2015-2019 & Opportunity Assessment 2020-2030
This chapter provides the growth scenario of the compound semiconductor materials market in Latin American countries such as Brazil, Mexico, and the Rest of Latin America. Along with this, an assessment of the market across target segments has been provided.
Chapter 14 –Europe Compound Semiconductor Materials Market Analysis 2015-2019 & Opportunity Assessment 2020-2030
Important growth prospects of the compound semiconductor materials market based on its end users in several countries such as the Germany, Italy, France, the U.K., Spain, Nordic, Russia, Benelux and the Rest of Europe are included in this chapter.
Chapter 15 – East Asia Compound Semiconductor Materials Market Analysis 2015-2019 & Opportunity Assessment 2020-2030
This chapter highlights the growth of the compound semiconductor materials market by focusing on East Asia. This section also helps readers understand the key factors that are responsible for the growth of the compound semiconductor materials market in China, Japan, and South Korea.
Chapter 16 – South Asia & Pacific Compound Semiconductor Materials Market Analysis 2015-2019 & Opportunity Assessment 2020-2030
This chapter highlights the growth of the compound semiconductor materials market by focusing on South Asia & Pacific. This section also helps readers understand the key factors that are responsible for the growth of the compound semiconductor materials market in India, ASEAN, Australia and New Zealand, and rest of South Asia & Pacific.
Chapter 17 – Middle East & Africa Compound Semiconductor Materials Market Analysis 2015-2019& Opportunity Assessment 2020-2030
This chapter highlights the growth of the compound semiconductor materials market in the Middle East & Africa by focusing on Turkey, GCC Countries, South Africa, and Rest of Middle East & Africa. This section also helps readers understand the key factors that are responsible for the growth of the compound semiconductor materials market in the Middle East & Africa.
Chapter 18 – Key and Emerging Countries for Compound Semiconductor Materials Market Analysis
This chapter highlights the growth of the compound semiconductor materials market in major countries of the considered regions. This section helps readers understand the important country level markets within the considered regions of the compound semiconductor materials market.
Chapter 19 – Market Structure Analysis
In this chapter, readers can find detailed information about the tier analysis and market concentration of key players in the compound semiconductor materials market, along with their market presence analysis by region and product portfolio.
Chapter 20 – Competition Analysis
In this chapter, readers can find a comprehensive list of all the prominent stakeholders in the compound semiconductor materials market, along with detailed information about each company, which includes company overview, revenue shares, strategic overview, and recent company developments. Some of the market players featured in the report are IQE plc, Sumitomo Electric Industries, Ltd., Nichia Corporation, Samsung, Qorvo Inc., Skyworks, Shin-Etsu Chemical Co. Ltd., Freiberger Compound Materials GmbH, and Comptek Solutions Oy.
Chapter 21 – Assumptions and Acronyms
This chapter includes a list of acronyms and assumptions that provides a base to the information and statistics included in the compound semiconductor materials market report.
Chapter 22 – Research Methodology
This chapter help readers understand the research methodology followed to obtain various conclusions as well as important qualitative and quantitative information about the compound semiconductor materials market.
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Photonic Integrated Circuits (ICs) Market to Experience a Hike in Growth in Coming year
Global Photonic Integrated Circuits (PIC) Market: Overview
According to a new research report pertaining to the photonic integrated circuits (PIC) market, published by Transparency Market Research, the global photonic integrated circuits market is expected to reach a value of ~ US$ 3.3 Bn by 2027, expanding at a CAGR of ~ 23% from 2019 to 2027. According to the report, the global PIC market would continue to be influenced by a range of macroeconomic and market-specific factors during the forecast period.
Request A Sample Copy Of The Report https://www.transparencymarketresearch.com/sample/sample.php?flag=S&rep_id=997
Increasing Use of PICs for Communication Systems Driving the Market
In terms of application, the global photonic integrated circuits market has been segmented into optical communication, sensing, optical signal processing, and biophotonics.
The optical communication segment in the PIC market is anticipated to dominate the market, due to a rise in the demand for optical communication systems that transmit large volume of data at high speed over a long distances.
Furthermore, the adoption of optical communication systems offers additional advantages over electric communication, such as high bandwidth capability, low latency, and superior flexibility.
Moreover, sensing applications are also anticipated to play a major role in driving the photonic integrated circuits market in the near future, as photonics offer electromagnetic immunity, metal-free operation, and low-cost integration with electronic devices, as well as high sensitivity in the field of optical sensing.
The optical communication segment in the PIC market is anticipated to expand at a significant CAGR from 2019 to 2027. The sensing segment in the photonic integrated circuits market is also anticipated to expand at a substantial CAGR during the forecast period.
Increasing Use of Silicon Technology in Photonic Integrated Circuits
The report on the PIC market offers detailed segmentation of the global photonic integrated circuits market in terms of integration type (monolithic integration, hybrid integration, and module integration), raw material (indium phosphide, gallium arsenide, lithium niobate, silicon, silicon-on-insulator, and others), components (lasers, modulators, detectors, attenuators, multiplexers/de-multiplexers, and optical amplifiers), and application (optical communication, sensing, optical signal processing, and biophotonics). The global photonic integrated circuits market has also been segmented based on region (North America, Europe, Asia Pacific, Middle East and Africa, and South America).
Among the raw materials, the silicon segment accounted for a substantial share of the global photonic integrated circuits market in 2018, and is anticipated to gain a higher market share during the forecast period, owing to low-cost integration of silicon-based PICs by using silicon-based semiconductor manufacturing techniques.
North America to be a Highly Lucrative Market for PICs
North America witnesses high investments in optical communication and sensing applications. The optical communication segment is anticipated to dominate the global photonic integrated circuits market throughout the forecast period, owing to the increasing penetration of PICs in long-haul and transport networks across the U.S. and Canada.
Furthermore, with significant investments in sensing and biophotonics applications in the region, the photonic integrated circuits market in North America is anticipated to expand at a high CAGR during the forecast period.
Moreover, the optical signal processing segment is anticipated to gain traction in the PIC market during the forecast period, owing to the increasing demand for higher bandwidth and data transfer rates for optical signal processing networks.
Investments by Key Players to Boost Photonic Integrated Circuits Market
The report provides the profiles of leading players operating in the global photonic integrated circuits market. These include Agilent Technologies, Broadcom, Ciena Corporation, Enablence, Finisar Corporation, Hewlett Packard, Huawei Technologies Co., Ltd., Infinera Corporation, Intel Corporation, Kaiam Corp, Luxtera, MACOM, Mellanox Technologies, NeoPhotonics Corporation, Oclaro, Inc., TE Connectivity, Uniphase Inc., and VLC Photonics S.L.
Luxtera, Inc. and TSMC jointly developed a unique silicon photonics platform in the latter’s 300-mm CMOS wafer foundry in 2017. In 2018, Luxtera announced that significant rise in performance has been achieved in the new TSV-enabled silicon photonics platform being developed at TSMC.
The company invests significantly in R&D activities in order to design and develop products, services, and solutions to meet the changing requirements of customers. The company has invested over US$ 250 Mn in the R&D of silicon photonics.
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Global Photonic Integrated Circuits Market: Segmentation
The global photonic integrated circuits market has been segmented as follows:
Global Photonic Integrated Circuits (PIC) Market by Integration Type
Monolithic Integration
Hybrid Integration
Module Integration
Global Photonic Integrated Circuits (PIC) Market by Raw Material
Indium Phosphide
Gallium Arsenide
Lithium Niobate
Silicon
Silicon-on-insulator
Others (Including Silica-on-silicon, Silicon Dioxide (SiO2), Silicon Nitride (Si3Ni4))
Global Photonic Integrated Circuits (PIC) Market by Component
Lasers
Modulators
Detectors
Attenuators
Multiplexers/De-multiplexers
Optical Amplifiers
Global Photonic Integrated Circuits (PIC) Market by Application
Fttx and Access Networks
Microwave/RF Photonics
Long-haul and Transport Networks
Optical Datacom
Structural Engineering
Chemical Sensors
Transport & Aerospace
Energy & Utilities
Optical Metrology
Optical Instrumentation
Quantum Optics
Quantum Computing
Medical Instrumentation
Photonic Lab-on-a-chip
Analytics & Diagnostics
Optical Biosensors
Global Photonic Integrated Circuits (PIC) Market by Region
North America
Europe
Asia Pacific
Middle East & Africa
South America
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About Us
Transparency Market Research is a global market intelligence company, providing global business information reports and services. Our exclusive blend of quantitative forecasting and trends analysis provides forward-looking insight for thousands of decision makers. Our experienced team of analysts, researchers, and consultants use proprietary data sources and various tools and techniques to gather and analyze information.
Our data repository is continuously updated and revised by a team of research experts, so that it always reflects the latest trends and information. With a broad research and analysis capability, Transparency Market Research employs rigorous primary and secondary research techniques in developing distinctive data sets and research material for business reports.
Contact
Transparency Market Research, 90 Sate Street, Suite 700, Albany, NY 12207 Tel: +1-518-618-1030 USA - Canada Toll Free: 866-552-3453 Email: [email protected] Website: https://www.transparencymarketresearch.com/
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Photonic Integrated Circuits (PIC) Market to reach ~ US$ 3.3 Bn by 2027
Global Photonic Integrated Circuits (PIC) Market: Overview
According to a new research report pertaining to the photonic integrated circuits (PIC) market, published by Transparency Market Research, the global photonic integrated circuits market is expected to reach a value of ~ US$ 3.3 Bn by 2027, expanding at a CAGR of ~ 23% from 2019 to 2027. According to the report, the global PIC market would continue to be influenced by a range of macroeconomic and market-specific factors during the forecast period.
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Increasing Use of PICs for Communication Systems Driving the Market
In terms of application, the global photonic integrated circuits market has been segmented into optical communication, sensing, optical signal processing, and biophotonics.
The optical communication segment in the PIC market is anticipated to dominate the market, due to a rise in the demand for optical communication systems that transmit large volume of data at high speed over a long distances.
Furthermore, the adoption of optical communication systems offers additional advantages over electric communication, such as high bandwidth capability, low latency, and superior flexibility.
Moreover, sensing applications are also anticipated to play a major role in driving the photonic integrated circuits market in the near future, as photonics offer electromagnetic immunity, metal-free operation, and low-cost integration with electronic devices, as well as high sensitivity in the field of optical sensing.
The optical communication segment in the PIC market is anticipated to expand at a significant CAGR from 2019 to 2027. The sensing segment in the photonic integrated circuits market is also anticipated to expand at a substantial CAGR during the forecast period.
Increasing Use of Silicon Technology in Photonic Integrated Circuits
The report on the PIC market offers detailed segmentation of the global photonic integrated circuits market in terms of integration type (monolithic integration, hybrid integration, and module integration), raw material (indium phosphide, gallium arsenide, lithium niobate, silicon, silicon-on-insulator, and others), components (lasers, modulators, detectors, attenuators, multiplexers/de-multiplexers, and optical amplifiers), and application (optical communication, sensing, optical signal processing, and biophotonics). The global photonic integrated circuits market has also been segmented based on region (North America, Europe, Asia Pacific, Middle East and Africa, and South America).
Among the raw materials, the silicon segment accounted for a substantial share of the global photonic integrated circuits market in 2018, and is anticipated to gain a higher market share during the forecast period, owing to low-cost integration of silicon-based PICs by using silicon-based semiconductor manufacturing techniques.
North America to be a Highly Lucrative Market for PICs
North America witnesses high investments in optical communication and sensing applications. The optical communication segment is anticipated to dominate the global photonic integrated circuits market throughout the forecast period, owing to the increasing penetration of PICs in long-haul and transport networks across the U.S. and Canada.
Furthermore, with significant investments in sensing and biophotonics applications in the region, the photonic integrated circuits market in North America is anticipated to expand at a high CAGR during the forecast period.
Moreover, the optical signal processing segment is anticipated to gain traction in the PIC market during the forecast period, owing to the increasing demand for higher bandwidth and data transfer rates for optical signal processing networks.
Investments by Key Players to Boost Photonic Integrated Circuits Market
The report provides the profiles of leading players operating in the global photonic integrated circuits market. These include Agilent Technologies, Broadcom, Ciena Corporation, Enablence, Finisar Corporation, Hewlett Packard, Huawei Technologies Co., Ltd., Infinera Corporation, Intel Corporation, Kaiam Corp, Luxtera, MACOM, Mellanox Technologies, NeoPhotonics Corporation, Oclaro, Inc., TE Connectivity, Uniphase Inc., and VLC Photonics S.L.
Luxtera, Inc. and TSMC jointly developed a unique silicon photonics platform in the latter’s 300-mm CMOS wafer foundry in 2017. In 2018, Luxtera announced that significant rise in performance has been achieved in the new TSV-enabled silicon photonics platform being developed at TSMC.
The company invests significantly in R&D activities in order to design and develop products, services, and solutions to meet the changing requirements of customers. The company has invested over US$ 250 Mn in the R&D of silicon photonics.
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