Radiation Sensing Field Effect Transistor (RADFET) is based on the metal oxide silicon p-channel structure. RADFET is an integrating dosimeter that monitors dose of radiation (Gy) as a result of the field effect caused due to space charge trapped in an insulator. The RADFET dosimeters are used to measure ionizing radiation. The microscopic small sensor volume in RADFETs offer opportunities for invention of new portable and miniature radiation dosimeters. RADFET systems are gaining preferences over other radiation detection systems due to their compact systems and these detectors can easily be associated with computer power.
Globally, with the rise in demand for radiation dosimeters owing to rising demand from medical and aerospace industries, the demand for RADFETs is expected to grow at a higher rate than that of other dosimetry systems. The global market size of RADFETs is expected to grow at a CAGR of 5.3% over the period of 2016 - 2022, and the market size of RADFETs is projected to reach USD xxx.x million by 2022.
The RADFETs market is primarily driven by increasing demand from the application industries such as healthcare, and nuclear power. The drivers of the global RADFETs market listed in the report include, increasing incidences of cancer patients (especially from geriatric population group), and growing demand for portable RADFETs. Institutional manufacturers of RADFETs such as Tyndall and EI Microelectronics are engaged in regular research and development of RADFET dosimeters to improve the effectiveness of these dosimeters. This in turn is expected to support the growth of RADFETs in the near future. The restraints in the market that are likely to affect the growth over the forecast period include limitations of RADFETs to record dose at real time and inaccuracy of RADFETs at low sensitivity.
RADFETs market is broadly classified on the basis of product types, and applications. On the basis of product types the RADFETs market is segmented as Personal Dosimeters, Area Process Monitors, Radioactive Material Monitors and others including (Environmental Radiation Monitors, Surface Contamination Monitors). On the basis of applications the RADFETs market is segmented as medical, and non-medical applications. Globally, medical applications segment in the RADFETs market is anticipated to grow at the highest CAGR over the forecast period.
Geographic Coverage and Analysis:
The report provides regional analysis covering geographies such as North America, Europe, Asia-Pacific, and Rest of the World. Among the various regions covered, North America dominated the global RADFETs market, while Asia- Pacific is expected to grow at the highest CAGR over the forecast period.
The report covers analysis of the leading players operating in RADFETs market. The company profile typically includes the company’s financial information, contact details, SWOT analysis, product portfolio and recent development.
The report provides deep insights on demand forecasts, market trends and micro and macro indicators. In addition, this report provides insights on the factors that are driving and restraining the demand of RADFETs globally as well as regionally. The author's growth matrix analysis given in the report brings an insight on the investment areas that existing or new market players can consider.
The report provides insights into the market using analytical tools such as Porter’s five forces analysis RADFETs. The study highlights current market trends and provides forecast from 2016 to 2022. The author has also highlighted future trends in the RADFETs market that will impact the demand during the forecast period. The competitive analysis given in each regional market brings an insight on the market share of the leading players. Additionally, the analysis highlights rise and fall in the market shares of the key players in the market. This report will help manufacturers, suppliers and distributors of the RADFETs market to understand the present and future trends in this market and formulate their strategies accordingly.
1.1 Report Description
1.2 Research Methods
1.3 Research Approaches
2. Executive Summary
3. Global RADFETs Market Overview
3.2 Market Dynamics
3.3 Porter’s Five Forces Analysis
3.4 Growth Matrix Analysis
3.5 Competitive Landscape in the RADFETs Market
4. Global RADFETs Market Analysis, by Type 2014-2022
4.1 Personal Dosimeters
4.2 Area Process Monitors
4.3 Radioactive Material Monitors
5. Global RADFETs Market Analysis, by Application 2014-2022
5.2 Non-medical applications
6. Global RADFETs Market Analysis, by Region 2014-2022
6.1 North America
6.1.1 North America RADFETs Market by Type
6.1.2 North America RADFETs Market by Application
6.1.3 North America RADFETs Market by Country
6.2.1 Europe RADFETs Market by Type
6.2.2 Europe RADFETs Market by Application
6.2.3 Europe RADFETs Market by Country
6.3.1 Asia-Pacific RADFETs Market by Type
6.3.2 Asia-Pacific RADFETs Market by Application
6.3.3 Asia- Pacific RADFETs Market by Country
6.4 Rest of the World (RoW)
6.4.1 RoW RADFETs Market by Type
6.4.2 RoW RADFETs Market by Application
6.4.3 Row RADFETs Market by sub- regions
7. Company Profiles