Quantum information entropies of the eigenstates for a symmetrically trigonometric Rosen-Morse potential

Guo Hua Sun; Shi Hai Dong

doi:10.1088/0031-8949/87/04/045003

Quantum information entropies of the eigenstates for a symmetrically trigonometric Rosen-Morse potential

Guo Hua Sun, Shi Hai Dong

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60 Scopus citations

Abstract

Shannon entropy for the position and momentum eigenstates of the symmetrically trigonometric Rosen-Morse potential for the lower states n = 1-4 is evaluated. The position information entropies S_x for n = 1,2 are presented analytically. Some interesting features of the information entropy densities ρ_s(x) and ρ_s(p) are demonstrated graphically. We find that the ρ_s(p) is inversely proportional to the range of potential a and the S_x decreases with increasing the potential depth D. In particular, we note that the S_x might become negative for some given parameters a and D. The Bialynicki-Birula-Mycielski inequality is also tested for a number of states and is found to generally hold well.

Original language	English
Article number	045003
Journal	Physica Scripta
Volume	87
Issue number	4
DOIs	https://doi.org/10.1088/0031-8949/87/04/045003
State	Published - Apr 2013

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abstract = "Shannon entropy for the position and momentum eigenstates of the symmetrically trigonometric Rosen-Morse potential for the lower states n = 1-4 is evaluated. The position information entropies Sx for n = 1,2 are presented analytically. Some interesting features of the information entropy densities ρs(x) and ρs(p) are demonstrated graphically. We find that the ρs(p) is inversely proportional to the range of potential a and the Sx decreases with increasing the potential depth D. In particular, we note that the Sx might become negative for some given parameters a and D. The Bialynicki-Birula-Mycielski inequality is also tested for a number of states and is found to generally hold well.",

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N2 - Shannon entropy for the position and momentum eigenstates of the symmetrically trigonometric Rosen-Morse potential for the lower states n = 1-4 is evaluated. The position information entropies Sx for n = 1,2 are presented analytically. Some interesting features of the information entropy densities ρs(x) and ρs(p) are demonstrated graphically. We find that the ρs(p) is inversely proportional to the range of potential a and the Sx decreases with increasing the potential depth D. In particular, we note that the Sx might become negative for some given parameters a and D. The Bialynicki-Birula-Mycielski inequality is also tested for a number of states and is found to generally hold well.

AB - Shannon entropy for the position and momentum eigenstates of the symmetrically trigonometric Rosen-Morse potential for the lower states n = 1-4 is evaluated. The position information entropies Sx for n = 1,2 are presented analytically. Some interesting features of the information entropy densities ρs(x) and ρs(p) are demonstrated graphically. We find that the ρs(p) is inversely proportional to the range of potential a and the Sx decreases with increasing the potential depth D. In particular, we note that the Sx might become negative for some given parameters a and D. The Bialynicki-Birula-Mycielski inequality is also tested for a number of states and is found to generally hold well.

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Quantum information entropies of the eigenstates for a symmetrically trigonometric Rosen-Morse potential

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