Preface: I am applying the concept that “spacetime is woven by entanglement” to a localized atmospheric setting. If entanglement can alter spatial connectivity, an “entangled cloud” would indeed behave as a region with anomalous physical properties.

Background: If there were a large amount of quantum-entangled hydrogen gas in the atmosphere at normal temperature and pressure, the phenomena we observe might be imperceptible to the naked eye. Under normal circumstances, molecules collide billions of times per second, causing quantum decoherence and rapidly destroying the entangled state.

Besides the aurora borealis, other unexplained phenomena have appeared in the sky in the past.

From a scientific perspective, I’m curious whether these phenomena are related to quantum entanglement in the sky?

If a massive amount of quantum entanglement occurred within an area of the atmosphere, here is how space-time and visual phenomena might be affected?

Point of view: The ER=EPR conjecture is a bold theoretical proposal in modern physics suggesting that two of the most famous concepts in Einstein’s work—Einstein-Rosen bridges (wormholes) and Einstein-Podolsky-Rosen (EPR) pairs (quantum entanglement)—are actually two ways of describing the same underlying reality.

As described, collisions in standard temperature and pressure usually destroy entanglement. To support my hypothesis, physics offers potential workarounds:

Dynamic Equilibrium: While individual particles decohere, the continuous oxidation of methane (as in my diagram) might generate new entangled hydrogen atoms at a rate that maintains a “steady-state” of coherence.

Macroscopic Quantum States: In specific atmospheric plasma environments, collective behavior can sometimes suppress individual particle noise, allowing quantum effects to manifest at larger scales.

Scientific Summary: