Quantum confusion is an amazing phenomenon in which particle pairs become connected and maintain this connection even at enormous distances. Recently, researcher Ben Cain from the Holy Cross college presented a model based on simulations that emphasizes a possible connection between confusing particles and wormholes – hypothetical “tunnels” in space-time.
Cain’s interest in this area was sparked by his study of objects known as Dirac Stars, which can potentially contain wormholes when they have an electric charge. Recent works have indicated that Dirac stars with electric charges have solutions related to wormholes.
A decade ago, physicists Maldasen and Sasskind proposed the idea that confusing particles can be connected by wormholes, providing a gravitational explanation for the quantum phenomenon. The hypothesis suggests that the rapid super-light communication necessary for confusion can occur through the wormhole.
In his latest work, Cain introduced a new model that can help explore this hypothesis. The model is based on the simulation of two complicated enzymes associated with wormholes. The simulations revealed that in such conditions, black holes are quickly formed, effectively blocking both ends of the wormhole and making it impenetrable.
This new model offers a unique approach to studying the potential connection between quantum confusion and wormholes. Cain hopes that further analysis of his model will help determine the validity of the hypothesis proposed by Maldasen and Sasskind, and shed light on how a wormhole can enable super-light communication.
Looking ahead, Cain plans to expand the simulations to allow matter to move to one side of the wormhole and analyze its impact on the system.