the technology to reliably detect and locate the origin of microwave or directed energy attacks on US personnel has not been publicly disclosed or widely available. However, it's important to note that the field of science and technology is constantly evolving, and there may have been advancements since then.
Detecting and locating the origin of such attacks can be challenging for several reasons:
Complexity of the attacks: Microwave or directed energy attacks can employ sophisticated and covert methods, making them difficult to identify and attribute to a specific source. The attackers may use advanced technologies and encryption techniques to conceal their actions.
Lack of comprehensive detection systems: Developing a detection mechanism requires a deep understanding of the characteristics and signatures of these energy attacks. If the nature and specific properties of these attacks are not well understood, it becomes challenging to design effective detection systems.
Limited evidence and data: In many reported cases, microwave or directed energy attacks have left little physical evidence, making it difficult to study and analyze the attacks. This lack of tangible evidence hampers the development of detection and attribution mechanisms.
Countermeasures and obfuscation techniques: Attackers can employ countermeasures and obfuscation techniques to mask the origin of the attacks. This can include bouncing the energy off different surfaces, employing reflective materials, or utilizing advanced beamforming technologies to manipulate the directionality of the attack.
However, it's worth mentioning that governments and intelligence agencies invest in research and development to enhance their capabilities in countering various threats, including directed energy attacks. The progress made in this area may not be publicly disclosed due to national security concerns or the sensitive nature of the technology.
It's important to consult up-to-date sources or official statements from relevant authorities to learn about the latest advancements and capabilities regarding the detection and attribution of microwave or directed energy attacks.