Related papers: Exactly Solvable Sextic Potential Having Symmetric Triple-Well Structure

Exactly Solvable Sextic Potential Having Symmetric Triple-Well Structure

URL: http://arxiv.org/abs/2008.06500v3
Date: Wed, 21 Oct 2020 14:54:17 GMT
Title: Exactly Solvable Sextic Potential Having Symmetric Triple-Well Structure
Authors: Jamal Benbourenane, Mohamed Benbourenane, Hichem Eleuch
Abstract summary: We introduce a family of sextic potentials that are exactly solvable. For the first time, a family of triple-well potentials with their whole energy spectrum and wavefunctions using supersymmetry method.
Score: 0.0
License: http://creativecommons.org/licenses/by-nc-sa/4.0/
Abstract: In this paper, we introduce a family of sextic potentials that are exactly solvable, and for the first time, a family of triple-well potentials with their whole energy spectrum and wavefunctions using supersymmetry method. It was suggested since three decades ago that all "additive" or "translational" shape invariant superpotentials formed by two combination of functions have been found and their list was already exhausted by the well-known exactly solvable potentials that are available in most textbooks and furthermore, there are no others. We have devised a new family of superpotentials formed by a linear combination of three functions (two monomials and one rational) and where the change of parameter function is linear in four parameters. This new family of potentials with superpotential $W(x,A,B,D,G) = Ax^3 + Bx -\frac{Dx}{1+Gx^2}$ will extend the list of exactly solvable Schr\"odinger equations. We have shown that the energy of the bound states is rational in the quantum number. Furthermore, approximating the potential around the central well by a harmonic oscillator, as a usual practice, is not valid. The two outer wells affect noticeably the probability density distribution of the excited states. We have noticed that the populations of the triple-well potentials are localized in the two outer wells. These results have potential applications to explore more physical phenomena such as tunneling effect, and instantons dynamics.

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