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- Title
Effects of Three-Dimensional Noncommutative Theories on Bound States Schrödinger Molecular under New Modified Kratzer-type Interactions.
- Authors
Maireche, Abdelmadjid
- Abstract
The new exact energy eigenvalues for new modified Kratzer-type potentials (NMKP) are calculated for a few typical ( N2 , CO , NO , CH ) molecules through the Bopp's shift method in the global quantum group (GQG) of noncommutative three-dimensional real space-phase symmetries (NC: 3D-RSP) in the framework of two infinitesimal parameters and due to (space-phase) noncommutativity, by means of the solution of the noncommutative Schrödinger equation (NCSE). The perturbation property of the spin-orbital Hamiltonian operator and new Zeeman effect of 3D system are investigated and the corresponding energy eigenvalues kp E n j l s ( , , , ) and nc -kp E n j l s m ( , , , , ) are easily calculated from standard perturbation theory. We have shown also that, the GQG of (NC: 3D-RSP) reduce to new sub-group symmetry of NC threedimensional real space (NC: 3D-RS) under new three-dimensional NMKP interactions.
- Subjects
SCHRODINGER equation; NONCOMMUTATIVE function spaces; PARTIAL differential equations; QUANTUM groups; SPIN-orbit coupling constants
- Publication
Journal of Nano- & Electronic Physics, 2018, Vol 10, Issue 2, p1
- ISSN
2077-6772
- Publication type
Article
- DOI
10.21272/jnep.10(2).02011