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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Bound and scattering states of modified Yukawa potential under relativistic spin and pseudospin symmetries with three tensor interactions
TL;DR: In this article, the analytical solutions of bound and scattering states of the Dirac equation with modified Yukawa potential including three-tensor interactions comprising Coulomb-like, Yukawa-like and Hulthen-type potentials were obtained in a closed form.
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A generalized interaction in noncommutative space: Both relativistic and nonrelativistic fields
TL;DR: In this paper, the authors investigate nonrelativistic Schrodinger and relativistic Dirac equations with a rather general interaction, which includes harmonic, linear, Coulomb and inverse square term, in the noncommutative space (NCS) and report the spectrum of the system as well as the associated wave function in a quasi-exact analytical manner.
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The generalized uncertainty principle from the doubly special relativity: Algebraic approach, Ramsauer effect and delta potential
Won Sang Chung,Hassan Hassanabadi,Min Su Kang,Hee Hun Sung,Jinyeob Maeng,Seung Hyun Lee,Young Moon +6 more
TL;DR: Chung et al. as discussed by the authors introduced the deformed derivative corresponding to DSR-GUP to discuss the quantum mechanics based on GUP in an algebraical way, and extended the discussion to the (1 + 1)-dimensional case.
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Theoretical information measurement in nonrelativistic time-dependent approach
TL;DR: In this article, the information-theoretic measures of time-dependent Schrodinger equation via the Shannon information entropy, variance and local Fisher quantities are investigated via the Fourier transformed wave function.
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A New Model for Calculating the Ground and Excited States Masses Spectra of Doubly Heavy Baryons
TL;DR: In this article, the ground state masses and the positive and negative parity excited state masses of doubly heavy baryons were obtained analytically for three particles under the hypercentral potential by using the ansatz approach.