Envision Report

Published March 13, 2018

Europe Scintillator Market – Size, Outlook, Trends, and Forecasts (2018 – 2024)

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Scintillation detectors are utilised to detect and measure ionising radiation and are widely used in healthcare and nuclear plants. Scintillators are materials that identify nuclear particles and radiation by reemitting the incident radiation in the form of light photons, which are further converted to electric signals by photomultiplier tubes. S-Ray devices, computed tomography scanners, CRT monitors, nuclear cameras, and gamma scanners instruments use the scintillator materials.

Europe Scintillator Market Size & Growth:

Europe Scintillator Market size is projected to reach $XX Million by the end of 2024 with a CAGR of XX% during the forecast period. Key Parameters promoting the market growth include new applications of the radiology in the medical sector, huge investments that are made for the radiation monitoring in the homeland security, increased performance of the products in the low cost, increasing need of the radiation detection instruments, increasing number of power plants. Due to the increasing number of nuclear power plants, there is a growing demand for nuclear particle and radiation detectors.

The Scintillators market is expected to have a positive growth during the forecast period due to the increasing homeland security measures. Security and defence organisations across the globe are striving hard to tighten their homeland security to prevent human loss. Department of homeland security has emphasised the requirement of materials to detect radioactive substances to prevent radiological attacks. Scintillator detectors are used for homeland security to detect radiation from the source.

Scintillators are essential in radiation detection systems, with numerous applications in manufacturing industries, high-energy particle experiments, medical imaging, and national security.

The increase in demand for the renewable energy sources such as solar, geothermal energy, non-proportionality between the input and the output results does not result in 100% efficiency and rather a distorted result, and the detectors work under a specified spectral range, which limits the complete functionality of the scintillators are the major restraints in scintillators market.

Europe Scintillator Market Share:

Europe Scintillator Market is classified by Material type, by Application, by End-Product, by geography. By material type, the Europe Scintillator Market is classified as organic scintillators and inorganic scintillator. Inorganic Scintillator segment occupies the dominant position and is expected to reach XX million by 2024. These scintillators include materials such as Nal, caesium iodide, and galactooligosaccharides, which are undergoing significant technological advances because of the increasing importance of homeland security in nations across the globe and these technological advances have also increased the use of inorganic scintillators in the healthcare, nuclear power plant environments, and industrial.  Inorganic scintillators are utilised to detect X-rays or in medical physics and security and scintillation process in inorganic scintillators is comparatively slow when compared to organic scintillators.

By Application, these are classified as nuclear power plants, homeland security, and medical and healthcare. By End-Product, these are classified as an automatic scintillator and the hand-held scintillator. Europe is expected to have the market during the forecast period 2018-2024. Europe is sub-segmented into U. K, Germany, France, Italy, and Spain.

Europe Scintillator Market Trends:

  • A novel plastic scintillator (J-PET Scintillator) has been developed for the application in the digital positron emission tomography.
  • Development of radiation-hard scintillators and wavelength-shifting fibres to facilitate a complete active medium for detectors under harsh radiation conditions.
  • Deuterated organic scintillators can generate pulse-shape gated neutron energy spectra 1 to 30 MeV without the need for time-of-flight and they are especially appropriate for measurements at low-energy accelerators where a pulsed beam is not available.

Europe Scintillator Market Research Reports:

An executive summary condensing the whole report such that essential authority can rapidly twist up doubtlessly acquainted with brief overview and conclusion.

To have complete market analysis through industry value chain analysisPorter’s fivePESTLESWOT analysis, and Y-o-Y analysis.

Regional and global is analysed with the major countries and the unions. Scrutinizing the revenue generation on YearOnYear

Identifying DROC in the current market and their impact in altering the market dynamics.

Competitive landscape analysis to identify the merger and acquisition which will have a comparative financial analysis with major competitors.

Expertise investment opportunities by an analyst to the individual and organisation to have a better foothold in the market.

Identify the latest developments, market shares and strategies that are employed by the major market players, such as

  • Scintacor Ltd.
  • Saint-Gobain Ceramics & Plastics, Inc.
  • Canberra Industries
  • Ludlum Measurements Inc.
  • Radiation Monitoring Devices Inc.

Along with these companies, there were many other companies considered/cited in the report while analysing the Europe Scintillator market. These companies hold substantial share-owning to the nature of the industry whereas rest of the market shares are marginal chunks to regional and local level manufacturers. Other players have considerable presence owing to its robust brand image, geographical reach and strong customer base.



Chapter 1 Introduction

1.1 Executive Summary

1.2 Market Definition

1.3 Scope of the Study

Chapter 2 Research Methodology

2.1 Secondary Research

2.2 Primary Research

2.3 Analytic Tools and Model

2.4 Economic Indicator

2.4.1 Base Year, Base Currency, Forecasting Period

2.5 Expert Validation

2.6 Study Timeline

Chapter 3 Market Analysis

3.1 Industry Value Chain Analysis

3.2Porter’s Five Force Analysis

3.2.1 Bargaining Power of Buyers

3.2.2 Bargaining Power of Suppliers

3.2.3 Threats of Substitutes

3.2.4 Threats of New Entrants

3.2.5 Industry Rivalry

3.3 PESTLE Analysis

3.3.1 Political

3.3.2 Economical

3.3.3 Social

3.3.4 Technological

3.3.5 Legal

3.3.6 Environmental

3.4 SWOT Analysis

3.4.1 Strengths

3.4.2 Weakness

3.4.3 Opportunities

3.4.4 Threats

3.5 Y-O-Y Analyses

Chapter 4 Market Dynamics

4.1. Drivers

4.1.1 Advances in medical technology

4.1.2 High Prevalence rate of cancer

4.1.3 Increase in homeland security measures

4.2 Restraints

4.2.1 Detectors work under a specified spectral range

4.3 Opportunities

4.3.1 Increased use of plastic Europe Scintillators in applications requiring high performance.

4.3.2 Proposed increase in the number of nuclear plants

4.3.3 Emerging Applications

4.4 Challenges

4.4.1 Security of Helium-3

4.4.2 Lack of proper and efficient workforce

4.4.3 Decline in number of nuclear plants in Europe and Japan

Chapter 5 Europe Scintillator Market – By Material Type

5.1 Introduction

5.2 Organic Scintillators

5.3 Inorganic Scintillators

5.4 Gaseous Scintillators

Chapter 6 Europe Scintillator Market – By Application

6.1 Nuclear Power Plants

6.2 Homeland Security

6.3 Medical and Healthcare

6.4 Radiation detectors

6.5 Petroleum

6.6 High Energy particle experiments

6.7 Astrophysics

Chapter 7 Europe Scintillator Market – By End-Product

7.1 Automatic Europe Scintillator

7.2 Hand-Held Europe Scintillator

Chapter 8 Europe Scintillator Market – By Geography

8.1 Europe

8.1.1 U. K

8.1.2 Germany

8.1.3 France

8.1.4 Italy

8.1.5 Spain

Chapter 9 Europe Scintillator Market – Company Profiles

9.1 Rexon Components & TLD Systems Inc.

9.2 Saint-Gobain Ceramics & Plastics, Inc.

9.3 Ludlum Measurements Inc.

9.4 Hamamatsu Photonics

9.5 Mirion Technologies Inc.

9.6 Radiation Monitoring Devices Inc.

9.7 Shalom Electro-Optics Technology Co., Ltd

9.8 Berkeley Nucleonics Corporation

9.9 Canberra Industries

9.10 Scintacor Ltd.

9.11 Eljen Technology

9.12 Zecotek Photonics Inc.

Chapter 10 Europe Scintillator Market – Competitive Landscape

10.1. Market Share Analysis

10.2. Strategies Adopted by top companies

10.3. Mergers, Acquisitions, Collaborations & Agreements

Chapter 11 Market Insights

11.1. Industry Experts Insights

11.2. Analysts Opinions

11.3. Investment Opportunities

Chapter 12 Appendix

12.1 List of Tables

12.2 List of Figures






  • Competitive Analysis in marketing and strategic management is an assessment of the strengths and weaknesses of current and potential competitors.
  • Monitoring the external and internal factors which affect the market dynamics with the aid of PESTLE analysis.
  • The Regional and Global Variety is taken care of in the report.
  • Year on Year basis generation of revenue is studied.
  • Porter's Five Forces analyze the intensity of competition in an industry and its profitability level.
  • The overview and the sustainability of the market are analyzed through SWOT.
  • DROC is recognized in the current market scenario and see how its effect on market dynamics.
  • The segment-level analysis in terms of type and technology.
  • The value chain analysis, value that's created and captured by a company is the profit margin.Value
  • Created and Captured – Cost of Creating that Value = Margin
  • An executive summary consists of the whole report and the outcome is been given in the report to have brief knowledge about the report.
  • Basis on the depth of the study we approach using analytical tools
  • Expertise investment opportunities are given after analyzing the market to give the organization and the individual to have perfect knowledge about the market.


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