In this paper, we show, by using the approach of effective mass, that the model of a two-
dimensional Dirac oscillator can be used to describe the thermodynamic properties of …

Graphene-based materials are thought to revolutionize entire industries. Therefore, many
researches are being carried on graphene theoretically and experimentally. On the other …

We explore the non-commutative (NC) effects on the energy spectrum of a two-dimensional
hydrogen atom. We consider a confined particle in a central potential and study the modified …

In this paper, we investigate the thermodynamic properties of a set of neutral Dirac particles
in the presence of an electromagnetic field in contact with a heat bath for the relativistic and …

In this work, we consider a non-commutative description of graphene. We have employed
extensive and non-extensive entropies to study magnetic susceptibility of graphene in non …

In this paper, we study the thermodynamic properties of the noncommutative quantum Hall
effect (NCQHE) with anomalous magnetic moment (AMM) for both relativistic and …

In this paper, we consider the thermal properties of one-dimensional Dirac in the framework
of the theory of superstatistics where the probability density f (β) follows χ 2− superstatistics …

In this paper, we have studied the influence of minimal uncertainty in momentum on three
and two-dimensional Dirac oscillator. For the first case, the calculation is carried out …

We study graphene in a two-dimensional dynamical noncommutative (NC) space in the
presence of a constant magnetic field. The model is solved using perturbation theory and to …

We explore the signatures of a topological phase transition (TPT) in the work and efficiency
of a quantum heat engine, which uses a single-layer topological insulator, stanene, in an …