The modification of the energy spectrum of charged particles by exotic open 4-smoothness via superstring theory

Abstract

In this paper we present a model where the modified Landau-like levels of charged particles in a magnetic field are determined due to the modified smoothness of R4 as underlying structure of the Minkowski spacetime. Then the standard smoothness of R4 is shifted to the exotic Rk4, k=2p, p=1,2.... This is achieved by superstring theory using gravitational backreaction induced from a strong, almost constant magnetic field on standard R4. The exact string background containing flat R4 is replaced consistently by the curved geometry of SU(2)k×R as part of the modified exact backgrounds. This corresponds to the change of smoothness on R4 from the standard R4 to some exotic Rk4. The calculations of the spectra are using the CFT marginal deformations and Wess-Zumino-Witten (WZW) models. The marginal deformations capture the effects of the magnetic field as well as its gravitational backreactions. The spectra depend on even level k of WZW on SU(2). At the same time the WZ term as element of H3(SU(2),R) determines also the exotic smooth Rk4. As the consequence we obtain a non-zero mass-gap emerges in the spectrum induced from the presence of an exotic Rk4.