How the New Jersey Drone/UAV Incident Might Be Linked to Government Surveillance – Part 3

A dirty bomb (also known as a radiological dispersal device or RDD) combines conventional explosives with radioactive materials. The primary goal of a dirty bomb is not to cause widespread destruction but to create panic, contaminate a wide area with radiation, and potentially cause long-term health effects from the exposure to radioactive material. Detecting a dirty bomb before detonation is crucial for minimizing casualties, environmental damage, and public panic.

Large drones with government funding can be equipped with specialized radiological detection systems to spot and neutralize such threats. Here’s how these drones can detect a dirty bomb prior to detonation:

1. Radiological Sensors

a. Gamma Radiation Detectors

• Capabilities: Gamma radiation is emitted by radioactive materials and is one of the primary indicators of a dirty bomb. Gamma detectors (such as scintillation counters or semiconductor detectors) can detect ionizing radiation at a distance, even in small amounts.
• Purpose: Drones can fly over areas suspected of harboring radioactive materials or around high-security locations to detect abnormal gamma radiation levels. If a drone identifies higher-than-normal radiation levels, it can alert authorities for further investigation.
• Detection Mechanism: These detectors work by measuring the energy released by gamma rays as they interact with the sensor material. The amount and energy of the gamma rays can indicate the type of radioactive material used.

b. Neutron Detectors

• Capabilities: Neutron detection is another key indicator of radioactive materials. Drones equipped with neutron detectors can identify the presence of fissile material, such as uranium or plutonium, which are often used in dirty bombs.
• Purpose: These detectors can spot the presence of materials that may not be detectable by gamma radiation alone, offering a more comprehensive means of detecting nuclear threats. Neutron detectors can be used to monitor specific locations or flight paths where illicit nuclear material may be stored or transported.
• Detection Mechanism: Neutron detectors rely on the emission of neutrons from radioactive materials and the interaction of those neutrons with the sensor, providing a specific signature of the material.

2. Radiation Mapping and Monitoring

a. Drone-Based Radiation Mapping

• Capabilities: Drones can fly over wide areas to create detailed maps of radiation levels, especially in sensitive locations such as ports, government buildings, or transportation hubs. Using radiation sensors, drones can produce a real-time analysis of radiation hotspots and unusual levels.
• Purpose: Identifying a radiation hotspot in an unexpected area may signal the presence of radioactive material, whether it’s part of a dirty bomb or other illicit activity. By establishing baseline radiation levels and detecting anomalies, authorities can pinpoint areas of concern before a potential attack occurs.
• Technology: Drones can integrate high-precision radiological sensors with GPS systems to map the exact location and intensity of radiation emissions, making it easier for authorities to take preemptive action.

b. Radiation “Cloud” Detection

• Capabilities: If a dirty bomb is being transported, drones can detect radiation as it begins to spread from the material, even before it is detonated. Radiation “clouds” can be detected by drones using specialized sensors that track the movement of radioactive particles in the air.
• Purpose: This detection capability allows law enforcement or military personnel to intercept the transport of radioactive materials or neutralize potential threats before they reach their target location.
• Technology: High-sensitivity gamma or neutron detectors coupled with onboard environmental sensors (e.g., wind speed and direction) help predict and trace the movement of radioactive materials.

3. Detection of Radioactive Transport

a. Secure Locations and High-Sensitivity Monitoring

• Capabilities: Drones can patrol key infrastructure sites like power plants, government buildings, or major transportation routes, where radioactive material might be hidden. High-sensitivity radiation sensors can detect low-level radiation emissions, even from concealed or shielded dirty bomb components.
• Purpose: If radioactive material is being transported secretly, drones equipped with radiological detection equipment can detect radiation leaking from containers, vehicles, or shipping crates, signaling a potential dirty bomb threat.
• Technology: Passive radiation sensors on drones can detect radiation levels from a distance, allowing for real-time alerts when radioactive materials are detected without requiring a direct confrontation with the source.

b. Inspection of Cargo and Vehicles

• Capabilities: Drones can inspect cargo vehicles and containers, especially in high-risk areas (e.g., near borders, seaports, or railways). Advanced radiation sensors on drones can detect radiation in shipping containers or even through vehicles.
• Purpose: By using drones to monitor and inspect potentially suspicious cargo, authorities can identify and address potential dirty bomb threats before they are smuggled into sensitive areas.
• Technology: Drones may use backscatter X-ray imaging or gamma spectroscopy in conjunction with radiological sensors to scan vehicles or cargo for illicit radioactive materials without having to physically open them.

4. Preemptive Countermeasures and Alerts

a. Integration with Ground Surveillance Systems

• Capabilities: Drones equipped with radiological sensors can feed real-time data to a centralized monitoring system. This system may include ground-based personnel, local law enforcement, or military units who can assess the threat and respond swiftly.
• Purpose: Early detection of radioactive material can allow for the immediate deployment of countermeasures, including intercepting the transport of the dirty bomb, evacuating civilians, or neutralizing the threat before detonation.
• Technology: The integration of drone sensors with AI-based analysis software can enable automated threat detection, issuing alerts based on predefined radiation thresholds or unusual patterns.

b. AI-Driven Threat Analysis

• Capabilities: AI can be used to analyze the data collected by drones, identifying not just the presence of radioactive material but also potential patterns or anomalies indicative of dirty bomb planning.
• Purpose: The AI system can flag unusual patterns in radiation levels, such as increased readings near known high-risk locations or in areas where no previous radiation was recorded.
• Technology: AI algorithms can process large amounts of sensor data, distinguishing between natural background radiation and unusual spikes, thus improving the precision and speed of the detection process.