"Illustration of a precision laser being fired from Earth to a satellite orbiting the Moon during daylight (AI-generated, non-realistic illustration). Credit: Ideogram." (Sustainability times, China Hits the Moon With a Laser: First Daylight Lunar Reflection in History Stuns Scientists and Ignites Global Space Race)
When Oxford researchers created light from a vacuum they created the possibility to create sterile photons. The sterile photon is the new tool for photonics and quantum computing. By stressing atoms and particles by using laser rays the system can maintain quantum states and superpositions 1000X longer than in regular cases.
And that is the big advance for quantum computing and quantum communication. In quantum communication, the system can put two particles into superposition and entanglement. Then it sends information to the transmitting side of that structure. That is one way to make a quantum communication system. The hollow laser ray can protect that structure,
When Chinese researchers sent high-power laser beams straight to the moon, they opened the road to high-power, highly secured data transmission into the Moon. That opens new ways to transport data to the Moon rovers using light. We know that the Chinese are interested in space as the base of military applications. Moon offers a good platform for intelligence work. It offers a good platform for biological laboratories. Those bases are easy to control and if there is a leak, those organisms will not spread across the Earth.
And the rocket- or missile stations on the moon are systems that can revolutionize science and warfare. Kinetic energy weapons like about 1-10 kilogram projectiles that shoot from the Moon to the Earth will get a very powerful kinetic energy load. The system must only shoot that rocket across the gravity threshold which is the point where the Earth's gravity turns dominating.
The laser data transmission is faster than any Starlink system. And there is the possibility of using acoustic wormholes or phononic vacuum channels through the air to minimize scattering. The quantum computer can use lasers as data transmitters. Each energy level in a laser is a certain qubit state. Otherwise, every wavelength or color of the lasers can be a certain qubit or its state. In binary data transmission red can be one and blue laser can be zero. That opens new ways to transmit data.
The problem with lasers is scattering. But if we think about hybrid systems like microwaves, phonons, and internal lasers where data travels in the laser ray that travels in another, hollow laser ray that kind of system can create tunnels through clouds, dust, and fog.
Optical systems create less heat than electric systems. Optical computers and microchips are the next-generation tools for computers. There are two ways to make photonic computers. In simpler systems, lasers replace only wires that transport electricity between microchips. However, the more advanced systems include optical data transmission inside the microchips.
High-power communication lasers also offer the weapon option. The laser ray that hits satellites is the tool that can destroy almost all systems that we know. The difference between communication, data, energy transfer and weapons is the power of the laser system. Many people say that orbital lasers are not dangerous for humans on the ground. If we think about kilometer-long modular laser systems that get their energy from the sunlight that system can destroy any target also from the ground.
The laser beam can be aimed at the target over the hills using drones that carry mirrors. Those mirrors can be used to send laser beams from the ground over hills and houses. In some ASAT systems, it is planned to use mirror satellites that aim the ground-launched laser impulses into the satellites that have no visual contact with the laser station. Those mirrors can also convey laser data transmission pulses. There is also the possibility of shooting laser beams into the balloons with low-temperature gas. That causes explosions and powerful shockwaves because of fast gas expansion.
Laser systems are like any other radiation. If another laser ray impacts a more powerful laser ray, that is more powerful, and that more powerful laser takes that weaker laser ray with it. That means more powerful lasers can turn weaker laser rays away from targets. That makes it possible to jam the laser communication. But that requires that the system knows the place where that laser beam travels. The jammer must also have the same frequency.
https://www.rudebaguette.com/en/2025/06/up-to-100x-faster-than-starlink-taara-emerges-with-light-speed-tech-to-revolutionize-global-internet-access-and-shatter-all-limits/
https://scitechdaily.com/quantum-time-freeze-lasers-lock-quantum-states-1000x-longer/
https://scitechdaily.com/mits-optical-ai-chip-that-could-revolutionize-6g-at-the-speed-of-light/
https://www.rudebaguette.com/en/2025/06/up-to-100x-faster-than-starlink-taara-emerges-with-light-speed-tech-to-revolutionize-global-internet-access-and-shatter-all-limits/
https://www.rudebaguette.com/en/2025/06/nothing-has-ever-been-this-powerful-zeus-laser-shatters-all-records-with-earths-most-intense-energy-blast/
https://scitechdaily.com/quantum-vacuum-breakthrough-oxford-physicists-make-light-emerge-from-nothing/
https://www.sustainability-times.com/energy/u-s-spy-flight-uncovers-fusion-laser-china-caught-building-colossal-device-that-could-reshape-global-energy-and-warfare/
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