Non-local Communication
Scientists / Papers
John Kramer's paper on quantum switches
Theories Citing This Reference (7)
China-US Tech War Escalation
The theory that China's development of quantum radar represents a major escalation in the technology arms race that could force a geopolitical reckoning. The US may need to either form an alliance with China or take military action before China achieves full advanced technology capability (directed energy weapons, plasma orbs).
Consciousness awakening
Humanity collectively transitioning to expanded awareness and perceptual capacity
Non-local Communication via Quantum Entanglement
The theory that quantum entanglement can enable faster-than-light communication by encoding binary information (1 or 0) through controlled coherence or decoherence of entangled particles. A switch mechanism determines whether the control panel sees a coherent (star) or decoherent (circle) pattern.
Quantum Entanglement via Extra Dimensional Torque
Objects (like the MH370 orbs) are connected through an extra dimension via synchronized torque, allowing them to act as a single system without direct communication, analogous to syncing metronomes.
Quantum Ethernet
The theory that a future quantum internet using entanglement-based communication will eliminate all lag, enabling real-time control of distant systems (like Mars rovers), instantaneous gaming across the planet, and secure quantum encryption at unprecedented speeds.
Quantum Radar Detection Mechanism
The theory that quantum radar works by splitting entangled photons into two paths - a control path and a probe path. When the probe photon encounters a target, the entanglement breaks causing decoherence that can be measured instantly in the control panel. Detection of decoherence (loss of interference pattern) indicates a target presence.
Switch Mechanism for FTL Communication
The theory that faster-than-light communication via quantum entanglement is possible not by measuring (which breaks entanglement) but by using a 'switch' that forces measurement outcomes to change. By controlling whether the wave function collapses (1) or doesn't collapse (0), binary information can be transmitted instantaneously between entangled systems.