In this work, we study the low-energy electronic spectrum of a graphene layer structure with
a disclination in the presence of a magnetic field. We make this study using the continuum …

In this paper, we use the Kaluza–Klein approach to describe topological defects in a
graphene layer. Using this approach, we propose a geometric model allowing us to discuss …

Lorentz symmetry breaking effects on relativistic EPR (Einstein–Podolsky–Rosen)
correlations are discussed. From the modified Maxwell theory coupled to gravity, we …

In this work, we propose a new formulation allowing to realize the holonomic quantum
computation with neutral particles with a permanent magnetic dipole moments interacting …

We discuss the effect of the gravitational field of a massive body on the spin entanglement of
a two-qubit system in the singlet and triplet spin states in circular geodesic motion. We study …

We present a geometric approach to study the relativistic EPR correlations in curved space–
time background given by the application of the Fermi–Walker transport in the relativistic …

In this paper, the new mathematical correlation of two quantum systems that were initially
allowed to interact and then separated is being formulated and analyzed. These correlations …

The Wigner rotation angle for a particle in a circular motion in the Schwarzschild spacetime
is obtained via the Fermi–Walker transport of spinors. Then, by applying the Wentzel …

Neste trabalho estudamos inicialmente o surgimento de fases geometricas nas dinâmicas
quânticas relativística e não-relativística de uma partícula neutra que possui momento de …

We present a geometric description to study the relativistic EPR correlations in curved
spacetime background given by the application of the Fermi-Walker transport in the …