The influence of noncommutativity on the energy spectra of bosonic particles in the framework of the DKGE with improved spatially-dependent mass including mixed scalar-vector Coulomb potentials in the ERQM symmetries

Abstract: The bound state solutions of the deformed Klien-Gordon equation (DKGE) have been determined in the extended relativistic quantum mechanics ERQM symmetries using the improved spatially-dependent mass Coulomb potential with mixed scalar-vector Coulomb potentials (ISDM-SVCPs) model. The spatially-dependent mass Coulomb potential, as well as a combination of ((1/(r³)) and (1/(r⁴))), are included in the ISDM-SVCPs model, which is coupled with the coupling LΘ, which explains the interaction of the physical features … Show more

“…Additionally, to the previously mentioned research related to our research, we mention for example the contribution of Akcay 56 related to the study of the Dirac equation with scalar and vector quadratic potentials and a Coulomblike tensor potential and other works. [57][58][59][60] It is important to point out that we have treated this potential in the framework of extended quantum mechanics symmetries of the modified Klien-Gordon equation 61 (MKGE) framework for bosonic particles and antiparticles. The following is a summary of the current paper's structure.…”

Arbitrary (k, l) States-Solutions of the Dirac and Schrödinger Equations Interacting with Improved Spatially-Dependent Mass Coulomb Potential with an improved Coulomb-like tensor interaction Model for H-atoms from 3D-RNCS and 3D-NRNCS symmetries

“…Additionally, to the previously mentioned research related to our research, we mention for example the contribution of Akcay 56 related to the study of the Dirac equation with scalar and vector quadratic potentials and a Coulomblike tensor potential and other works. [57][58][59][60] It is important to point out that we have treated this potential in the framework of extended quantum mechanics symmetries of the modified Klien-Gordon equation 61 (MKGE) framework for bosonic particles and antiparticles. The following is a summary of the current paper's structure.…”

Arbitrary (k, l) States-Solutions of the Dirac and Schrödinger Equations Interacting with Improved Spatially-Dependent Mass Coulomb Potential with an improved Coulomb-like tensor interaction Model for H-atoms from 3D-RNCS and 3D-NRNCS symmetries

Non-commutative phase–space of Schrödinger equation in the background of ISMK-CYP model: spectrum and thermodynamic properties

The behaviour of the deformed Klein-Gordon and Schrödinger equations in 3D-RNCQS and 3D-NRNCQS symmetries under the improved Eckart plus a class of Yukawa potential