Micro Black Holes as Temporal Communication Channels by JSBaenacock

 

Micro Black Holes as Temporal Communication Channels

by JSBaenacock

If we have ever dreamed of sending information through time, the key might lie in micro black holes. But for this to be possible, simply generating a black hole in a box and expecting it to work as a transmission channel is not enough; a receiver must be placed in the timeline beforehand.

Sending Information to the Past

If we want to send data to the past, the receiver must have been installed long before in time, because without a previously established reference point, there would be no way to receive the information. This implies that communication with the past is only feasible if there was prior planning.

Sending Information to the Future

In this case, the process is simpler. We can place a receiver in the present and let time pass naturally until the message is received in the future. The key here is to ensure the stability of the receiver, making sure it remains operational for the required duration.

The Possible Solution: Quantum Entanglement

To make this transmission more efficient, we could use quantum entanglement. If a pair of entangled particles were sent through the micro black hole, manipulating one of them at a certain point in time could influence the other, regardless of how many years have passed. This would open the door to a technology enabling instant communication between different points in time.

In conclusion, a micro black hole in a box could act as a temporal communication channel, but its success would depend on the existence of strategically placed receivers along the timeline. Without them, the information would have nowhere to go, and the experiment would be nothing more than an echo lost in the void.