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Entanglement is the phenomenon that occurs when a group of particles cannot be described independent of one another. One cannot exist without the other and share a connection regardless of distance or proximity. Once one of the entangled particles are observed, the others are destroyed.
Properties such as spin, momentum, position, and polarization can be correlated, either inversely or proportinal to. However to measure the similarities causes a wave function collapse
One way of testing entanglement is by separating two entangled particles far enough apart that communication between them can occur faster than the time it would take the data to travel at the speed of light.
#observation this measurement could possibly be done via Fiber OpticFiber Optic
Cons
Fiber Fuse: At high power, fiber optic networks are also susceptible to something known in the industry as “fiber fuse”. This occurs when too much light meets with an imperfection in the fiber... cables
#observation This is similar to the AI phenomenon of DLSS3 where several outcomes are predicted ahead of time to create frames ahead of time. Other examples are:
- predicting paths in ray tracing to reduce the amount of time it takes to produce a ray traced picture
- Calculating controller inputs prior to actual user input to reduce latency during a streamed game.
An entangled system is defined to be one whose quantum state cannot be factored as a product of states of its local constituents; that is to say, they are not individual particles but are an inseparable whole
In entanglement, one constituent cannot be fully described without considering the other(s). The state of a composite system is always expressible as a sum, or superposition, of products of states of local constituents; it is entangled if this sum cannot be written as a single product term.