H
Hassan Hassanabadi
Researcher at University of Shahrood
Publications - 523
Citations - 6662
Hassan Hassanabadi is an academic researcher from University of Shahrood. The author has contributed to research in topics: Dirac equation & Wave function. The author has an hindex of 35, co-authored 458 publications receiving 5202 citations. Previous affiliations of Hassan Hassanabadi include Islamic Azad University & University of Hradec Králové.
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Investigation of Bohr Hamiltonian in presence of Killingbeck potential using bi-confluent Heun functions
TL;DR: In this paper, the wave function and energy of these cases are found using bi-confluent Heun functions and the results are examined by reproducing experimental data of some isotopes for each case.
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Supersymmetry quantum mechanics to Dirac equation with a modified Yukawa potential and a Yukawa tensor term
TL;DR: In this article, the authors investigated relativistic symmetries of Dirac equation for a modified Yukawa potential including a Yukawa tensor interaction, using supersymmetry quantum mechanics and a proper approximation to the inverse square centrifugal term.
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Investigation of Conformable Fractional Schrödinger Equation in Presence of Killingbeck and Hyperbolic Potentials
TL;DR: In this article, conformable fractional form of Schrodinger equation has been presented and two different and well-known potential have been come in. Wave function of these potential are obtained in terms of Heun function and energy eigen values of each case is determined as well.
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Bohr Hamiltonian with time-dependent potential
TL;DR: In this article, the Bohr Hamiltonian with the time-dependent potential was studied using the Lewis-Riesenfeld dynamical invariant method and the exact wave functions of such a system have been derived.
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Exact Solutions of the (2+1)-Dimensional Dirac Oscillator under a Magnetic Field in the Presence of a Minimal Length in the Non-commutative Phase Space
TL;DR: In this paper, a two-dimensional Dirac oscillator in the presence of a magnetic field in non-commutative phase space in the framework of relativistic quantum mechanics with minimal length is considered.