A RIID is a radiation detector with the ability to analyze the energy spectrum of radiation, in order to identify the specific radioactive material (radionuclide) that is emitting the radiation. In addition, these devices can be used as survey instruments to locate radioactive material.

Hand-Held Radioisotope Identification Devices (RIID’s) take this another step further and are designed to identify the isotopic composition of radioactive sources. A RIID is typically a small, handheld device that is generally easy to use and deploy. The devices are often multipurpose/multitask instruments able to detect different forms of radiation and perform a variety of functions; used to search, detect and identify radioactive materials.

According to Researcher's new survey, global Radiation Isotope Identification Devices (RIID) market is projected to reach US$ million in 2029, increasing from US$ million in 2022, with the CAGR of % during the period of 2023 to 2029. Influencing issues, such as economy environments, COVID-19 and Russia-Ukraine War, have led to great market fluctuations in the past few years and are considered comprehensively in the whole Radiation Isotope Identification Devices (RIID) market research.

The market driver for Radiation Isotope Identification Devices (RIID) is the growing need for accurate and efficient identification and detection of radioactive isotopes in various applications, including nuclear safety, homeland security, emergency response, and industrial monitoring. RI IDs are portable radiation detection devices equipped with spectroscopic capabilities to identify specific radioactive isotopes present in the environment. Several factors contribute to the growing demand for RIIDs in the market:

Nuclear Safety and Radiation Protection: RIIDs are essential tools for nuclear safety and radiation protection personnel to monitor and identify radioactive sources in nuclear facilities, ensuring safe handling and disposal.

Homeland Security and Counterterrorism Measures: RIIDs are used by law enforcement agencies and security personnel to detect and identify potential radiological threats, such as dirty bombs or illicit trafficking of radioactive materials.

Emergency Response Preparedness: RIIDs play a critical role in emergency response situations, including nuclear accidents, incidents involving radioactive materials, or natural disasters with potential radiological impacts.

Customs and Border Control: Customs and border control agencies use RIIDs to screen cargo, vehicles, and passengers at ports and border crossings to prevent the illicit smuggling of radioactive materials

Industrial and Environmental Monitoring: RIIDs are employed in various industrial applications, such as mining, oil and gas, and environmental monitoring, to assess radiation exposure levels and ensure compliance with safety regulations.

Healthcare and Medical Applications: In healthcare settings, RIIDs are used to monitor and identify radioactive sources used in medical treatments and diagnose radioactive contamination incidents.

Public Safety Concerns: Growing public awareness of the potential risks associated with radiation exposure drives the demand for RIIDs to ensure public safety and security.

Regulatory Compliance: Various industries and applications require compliance with safety regulations and radiation protection standards, leading to the adoption of RIIDs.

Technological Advancements: Ongoing advancements in RIID technology, such as improved sensitivity, accuracy, and real-time data analysis capabilities, make RIIDs more effective and user-friendly.

International Cooperation and Standards: International cooperation on nuclear security and safety issues drives the adoption of standardized detection and identification devices like RIIDs.

Urban Search and Rescue Operations: RIIDs are utilized in urban search and rescue operations to assess radiation levels and identify potential hazards in disaster-stricken areas.

Non-Proliferation Efforts: RIIDs play a role in international efforts to prevent the proliferation of nuclear materials and monitor compliance with nuclear non-proliferation agreements.

Report Scope

This report, based on historical analysis (2018-2022) and forecast calculation (2023-2029), aims to help readers to get a comprehensive understanding of global Radiation Isotope Identification Devices (RIID) market with multiple angles, which provides sufficient supports to readers’ strategy and decision making.


By Company


Thermo Fisher

LAURUS Systems

AMETEK

Berkeley Nucleonics (BNC)

Mirion Technologies

Kromek

Teledyne FLIR

Symmetrica

Polimaster

Smiths Detection

ATOMTEX

CapeSym

Leidos

ECOTEST

Symetrica

H3D, Inc.

NuCare Inc.


Segment by Type


NaI Detector

LaBr Detector

Others


Segment by Application


Homeland Security (Ports, Customs)

Clandestine Surveillance (Public Venues)

Industrial (Uranium Mining, Shale)

Medical (Radiopharmacy, Laundry, Waste)

Radiation Safety (Nuclear Power, HEU)

Passenger and Freight Monitoring

Others


Production by Region



North America

Europe

China

Japan


Consumption by Region


North America

U.S.

Canada

Europe

Germany

France

U.K.

Italy

Russia

Asia-Pacific

China

Japan

South Korea

China Taiwan

Southeast Asia

India

Latin America, Middle East & Africa

Mexico

Brazil

Turkey

GCC Countries

The Radiation Isotope Identification Devices (RIID) report covers below items:

Chapter 1: Product Basic Information (Definition, type and application)

Chapter 2: Manufacturers’ Competition Patterns

Chapter 3: Production Region Distribution and Analysis

Chapter 4: Country Level Sales Analysis

Chapter 5: Product Type Analysis

Chapter 6: Product Application Analysis

Chapter 7: Manufacturers’ Outline

Chapter 8: Industry Chain, Market Channel and Customer Analysis

Chapter 9: Market Opportunities and Challenges

Chapter 10: Market Conclusions

Chapter 11: Research Methodology and Data Source