Global Scintillator Industry Forecast 2020 and Analysis : by Composition of Material, Application and End Product


Order report “Scintillator Market by Composition of Material, Application (Healthcare, Homeland security, Industrial application, Nuclear Power Plants, and others), End Product (Personal Instrument, Hand-Held Instruments, Fixed, and Installed Instruments) & Geography - Global Forecast and Analysis to 2013 – 2020” by calling at +1 888 391 5441.

Scintillators are luminescent materials, which re-emit part of the absorbed energy in the form of light. The emission can be of different types: fluorescence (prompt), delayed fluorescence and phosphorescence (delayed with different wavelength). The radiation detection and monitoring has witnessed various technological advancements in recent years. This advancement has led to the rise in the market for the various applications such as nuclear power plants, homeland security, medical, healthcare, and industrial inspections that have been discussed in this report. These applications require scintillation detectors to measure the radiation. Among these applications, homeland security, healthcare, and nuclear power plants are the top-rated applications for the scintillator market. The major drivers for scintillator development with regards to the various applications are high resolution, cost, and size that lead to new scintillator production.

The segmentation based on the products consists of sample counters, survey meters, area monitor, and portal monitor, among others. The future growth and development of these product segments with respect to scintillators is described in this report. The two basic types of scintillator materials, namely organic as well as inorganic, along with their various states and composition such as liquid, plastics, crystals, and gaseous are also well described in this report. The various future opportunities and developments in this market featuring the future demand for scintillators are highlighted with respect to the current market scenario.

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The report covers major regions such as Americas, Europe, APAC, and Rest of the World (ROW). Among all these regions, Americas is estimated to hold the major shareowing to the growing security concerns and increasing number of nuclear power plants in this region; as the U.S. accounted for over 30% of the nuclear electricity generation across the globe. However, in near future, it is expected that the APAC market will grow at a significant rate due to the nuclear power developments and security reasons which will boost the market for inorganic scintillators.

Some of the major players in the scintillator market include Canberra Industries Inc. (U.S.), Hamamatsu Photonics K.K.(Japan), Hitachi Metals Ltd. (Japan), Ludlum Measurements Inc.(U.S.), Mirion Technologies Inc. (U.S.), Radiation Monitoring Devices (U.S.), Saint Gobain (France), and Zecotek Photonics (Canada), among others.

Table of Contents

1.1 Key Take-Aways
1.2 Report Description
1.3 Markets Covered
1.4 Stakeholders
Scintillators And Related Device Manufacturing Companies
Suppliers And Distributors Of Organic And Inorganic Scintillators
Homeland Security And Defense Departments
Healthcare Companies
Government And Private Research Institutes
Medical Research Centers
Business Research And Consulting Service Providers
1.5 Research Methodology
1.5.1 Market Size
1.5.2 Key Data Points Taken From Secondary Sources
1.5.3 Key Data Points Taken From Primary Sources
1.5.4 Assumptions Made For This Report
1.5.5 List Of Companies Covered During Primaries

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Executive Summary

Cover Story
3.1.Applied Scintillation Technologies
3.2.Horiba Instruments, Inc.

Market Overview
4.1 Market Definition
4.2 History And Evolution
4.3 Market Dynamics
4.3.1 Market Drivers Demand For Low Cost And High Performance Scintillators Growing Safety Concerns For Safety In Wake Of Fukushima Disaster Rising Demand For Existing And New Radiological Medical Applications Increasing Investments For Radiation Monitoring In Homeland Security
4.3.2 Restraints Human Capital Crisis Among Radiation Safety Professionals Competition From Direct Radiation Conversion Technologies
4.3.3 Opportunities Growing Need For Neutron Detection Alternative To Helium–3 Proposed Increase In Number Of Nuclear Power Plants Particularly In India And China
4.4 Burning Issues
4.4.1 Intellectual Property Rights And Legal Frameworks Limit Use Of Scintillator Based Detectors
4.5 Winning Imperatives
4.5.1.Combined Detectors Or Semiconductor Scintillators Offer New Opportunities For X-Ray And Gamma Ray Detection
4.6 Value Chain Analysis

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Geographic Analysis
8.1 Introduction
8.2 Americas
8.2.1 Major Players In Americas
8.3 Europe
8.3.1 Major Players In Europe
8.4 Apac
8.4.1 Major Players In Apac
8.5 Row

Competitive Landscape
9.1 Introduction
9.1.1 Key Growth Strategies
9.2 Mergers And Acquision
9.3 New Product Development
9.4 Joint Venture’s, Collaborations, Expansions And Partnerships
9.5 Others (Awards, Facility Expansion, Contract, Agreement)

Company Profiles
10.1 Applied Scintillation Technologies Ltd.
10.2 Argus Imaging Bv Inc.
10.3 Canberra Industries
10.4 Hamamatsu Photonics
10.5 Hitachi Metals Ltd
10.6 Ludlum Measurements, Inc.
10.7 Mirion Technologies Inc.
10.8 Radiation Monitoring Devices Inc
10.9 Rexon Components And Tld Systems Inc.
10.1 Saint Gobain

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