Exploring Fermion Dynamics Near Sung-Won-Kim Wormholes

In a recent paper titled "Fermion behavior around Sung-Won-Kim wormholes in a generalized Kaluza-Klein gravity," author Everton Cavalcante investigates the dynamics of fermions near Sung-Won-Kim wormholes. The study, submitted on September 2, 2024, explores the implications of adding an extra dimension to the existing wormhole model, which is rooted in generalized Kaluza-Klein gravity.

The research focuses on how this additional dimension affects the stability and traversability of the wormholes, as well as the equations governing fermionic motion. By modifying the Dirac equation within this extended framework, the paper discusses the emergence of geometric phases and quantum holonomies, which provide insights into the topological properties of fermion dynamics in curved spacetime.

Cavalcante's findings could have significant implications for our understanding of wormhole physics and the behavior of particles in extreme gravitational fields. The study suggests that the inclusion of an extra dimension may enhance our comprehension of the quantum aspects of gravity and could lead to further investigations into the nature of spacetime itself.

The full paper can be accessed at arXiv:2409.01300.