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References

1. Freedberg, S. (2022). The Future of High-Energy Lasers in Military Defense. Defense Science Review, 15(1), 12-30.
2. Gilli, A., & Gilli, M. (2021). The Economics of Laser Weapons: Cost-Effective or Not? Journal of Strategic Studies, 34(4), 45-67.
3. Harding, J. (2022). Adaptive Optics in Directed Energy Weapons. Military Science Journal, 27(2), 78-91.
4. Kemp, P. (2023). Directed Energy Weapons and Their Tactical Applications. Journal of Military Technology, 29(3), 45-67.
5. Kreps, S., & Schneider, J. (2023). Artificial Intelligence in Laser Weapon Systems. Defense Advanced Research Projects Agency (DARPA).
6. Mehta, A. (2023). Laser Weapons in the Future Battlefield. U.S. Department of Defense Annual Report.
7. Schmidt, R., et al. (2022). High-Energy Lasers for Aircraft and UAV Defense. Air Force Research Laboratory, 32(1), 90-112.
8. Sharma, V., & Patel, R. (2023). AI-Driven Target Tracking for Laser Defense Systems. Indo-Pacific Defense Forum, 2024.
9. U.S. Navy. (2023). Naval Laser Defense Strategy and Implementation Plan. U.S. Naval Institute.
10. VOA Cantonese. (2024). Taiwan’s Development of Vehicle-Mounted Laser Cannons for Drone Defense.

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1. Freedberg, S. (2022). The Future of High-Energy Lasers in Military Defense. Defense Science Review, 15(1), 12-30.

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