Target Aiming Point Focusing Strategy for Destroying a Short-Range Target Using Distributed Laser Systems

Abstract: Consider a scenario where multiple high power laser weapon systems are positioned closed to a base, in order to protect the base from an aerial target, such as a missile. We consider destroying a short-range flying target which is sufficiently close to the base. Using multiple lasers can reduce thermal blooming, which decreases the effective power that can be delivered to a target site in the atmosphere. Thus, this paper proposes utilizing multiple high power laser sources to aim on a single point of the targe… Show more

“…With the continuous improvement of information technology, military electromagnetic equipment based on electronic devices is developing rapidly, and its radiation form has evolved from the traditional single-band low-power continuous wave to the combination of multiple pulses, featuring wide-band coverage and combined use of high and low power. − With the rapid development of high-power electromagnetic weapons, laser weapons, and strong electromagnetic destruction technology, the stability and viability of our electronic information systems are facing unprecedented challenges. Extensive use of various new technologies on the battlefield poses serious threats to our military information security. , On the other hand, with the continuous progress of terahertz (THz) generation and modulation technology, high-power electromagnetic weapons have officially moved from the GHz band (0.3–300 GHz) to the THz band (0.1–10 THz) . They are widely used in 6G communications, satellite communications, and short-distance optical fiber-combined encrypted transmission .…”

“…Extensive use of various new technologies on the battlefield poses serious threats to our military information security. 6,7 On the other hand, with the continuous progress of terahertz (THz) generation and modulation technology, high-power electromagnetic weapons have officially moved from the GHz band (0.3−300 GHz) to the THz band (0.1−10 THz). 8 They are widely used in 6G communications, 9 satellite communications, 10 and short-distance optical fiber-combined encrypted transmission.…”

Flexible CNT-MXene-CNT Film with Low Surface Conductance for High- and Low-Power Electromagnetic Absorption Protection

“…With the continuous improvement of information technology, military electromagnetic equipment based on electronic devices is developing rapidly, and its radiation form has evolved from the traditional single-band low-power continuous wave to the combination of multiple pulses, featuring wide-band coverage and combined use of high and low power. − With the rapid development of high-power electromagnetic weapons, laser weapons, and strong electromagnetic destruction technology, the stability and viability of our electronic information systems are facing unprecedented challenges. Extensive use of various new technologies on the battlefield poses serious threats to our military information security. , On the other hand, with the continuous progress of terahertz (THz) generation and modulation technology, high-power electromagnetic weapons have officially moved from the GHz band (0.3–300 GHz) to the THz band (0.1–10 THz) . They are widely used in 6G communications, satellite communications, and short-distance optical fiber-combined encrypted transmission .…”

“…Extensive use of various new technologies on the battlefield poses serious threats to our military information security. 6,7 On the other hand, with the continuous progress of terahertz (THz) generation and modulation technology, high-power electromagnetic weapons have officially moved from the GHz band (0.3−300 GHz) to the THz band (0.1−10 THz). 8 They are widely used in 6G communications, 9 satellite communications, 10 and short-distance optical fiber-combined encrypted transmission.…”

Flexible CNT-MXene-CNT Film with Low Surface Conductance for High- and Low-Power Electromagnetic Absorption Protection