The Countering Weapons of Mass Destruction (CWMD) Office was established in December 2017 by consolidating primarily the Domestic Nuclear Detection Office, a majority of the Office of Health Affairs, as well as other DHS elements.
For current information related to CWMD, please visit the following:
The President of the United States has described nuclear terrorism as the most immediate and extreme threat to global security. A radiological or nuclear attack on U.S. soil would result in dire and profound consequences for the country.
Securing the Nation Against Nuclear Terrorism
DHS’ nuclear detection and forensics missions are key elements of the U.S. Government’s wide-ranging approach to preventing attacks by terrorists and potential state sponsors.
DHS also coordinates the U.S. Government’s interagency efforts to develop the Global Nuclear Detection Architecture (GNDA), a framework for detecting (through technical and non-technical means), analyzing, and reporting on nuclear and other radioactive materials that are out of regulatory control.
Improving Detection and Strengthening Partnerships
DHS has made important strides in improving detection technologies, strengthening international partnerships, and increasing the number of law enforcement personnel trained in detection-related equipment. DHS also continues to build upon its substantial expertise in nuclear forensics, the ability to trace nuclear materials and weapons to their source.
- Radiation Portal Monitors: DHS has worked with U.S. Customs and Border Protection (CBP) to deploy Radiation Portal Monitors and other radiation detection technologies to seaports, land border ports, and mail facilities around the world. Today, these systems scan 100 percent of all containerized cargo and personal vehicles arriving in the U.S. through land ports of entry, as well as over 99 percent of arriving sea containers.
- Securing the Cities: DHS plans to expand the Securing the Cities (STC) initiative, designed to enhance the nation’s ability to detect and prevent a radiological or nuclear attack in the highest risk cities, to include additional urban areas while continuing to support efforts in existing STC regions. For example, through STC, approximately 19,450 personnel in the New York City region have been trained in preventive radiological and nuclear detection operations and more than 8,800 pieces of radiological detection equipment have been funded. The program expanded to Los Angeles/Long Beach in 2012 and to the National Capital Region in 2014.
Nuclear Detection and Forensics
A National Radiological and Nuclear Detection Support Capability
Supporting Radiological and Nuclear Detection Standards
Technical Capability Standards
Implementing Detection Capabilities
Advancing Nuclear Detection Technologies
Increasing Nuclear Forensics Capabilities
Features
Breakthrough Detection Technologies