Issue 132

Space Threat from Lasers & High Powered Microwaves

22 Oct 2025: A 2025 report from Military Aerospace Electronics notes Chinese and Russian directed-energy research and fielding point to growing space-focused capabilities. Specifically the report notes efforts using lasers and high-power microwaves (HPM) to threaten or protect space systems, harden on-orbit…

22 Oct 2025: A 2025 report from Military Aerospace Electronics notes Chinese and Russian directed-energy research and fielding point to growing space-focused capabilities. Specifically the report notes efforts using lasers and high-power microwaves (HPM) to threaten or protect space systems, harden on-orbit electronics, and enable precision, long-range effects from space or against space sensors. Excerpts below.

  • Power, beam, and thermal advances: Improvements in power scaling, beam control, and thermal management are making directed energy weapons (DEWs)/lasers progressively viable for space platforms.
  • Hardened on-orbit electronics: Research targets electronics that can survive HPM and other directed-energy effects — for both defensive protection of friendly satellites and offensive effects against adversary payloads.
  • Operational counterspace systems: The Russian Peresvet program demonstrates explicit development of lasers for sensor and satellite disruption, indicating operational intent to target space assets.
  • Phased-array HPM designs: The Chinese phased-array HPM design enables precise, multi-target engagements, making it suitable for space platforms and architectures well-suited for space or space-to-ground employment.
  • Engineering reliability breakthroughs: Efficient, durable power-divider designs and sustained full-power firings point toward repeatable, mission-compatible DEW operation in space cycles.
  • Operational testing & combat lessons: Real-world testing and early combat use accelerate tactics, testing requirements, and countermeasure development (spectrum management, attribution, and targeting rules). Ex. The Russian Peresvet system demonstrates an intent to use lasers for sensor and satellite disruption.
  • Spectrum & survivability tradeoffs: Deploying DEWs in and against space systems pushes design priorities toward redundancy, autonomous failover, resilient communications, and new survivability standards.