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Explicit energy expansion for general odd degree polynomial potentials

Mathematical Physics 2014-07-02 v1 math.MP

Abstract

In this paper we derive an almost explicit analytic formula for asymptotic eigenenergy expansion of arbitrary odd degree polynomial potentials of the form V(x)=(ix)2N+1+β1x2N+β2x2N1++β2NxV(x)=(ix)^{2N+1}+\beta _{1}x^{2N}+\beta _{2}x^{2N-1}+\cdot \cdot \cdot \cdot \cdot +\beta _{2N}x where βk\beta _{k}^{\prime }s are real or complex for 1k2N1\leq k\leq 2N. The formula can be used to find semiclassical analytic expressions for eigenenergies up to any order very efficiently. Each term of the expansion is given explicitly as a multinomial of the parameters β1,β2....\beta _{1},\beta _{2}.... and β2N\beta _{2N} of the potential. Unlike in the even degree polynomial case, the highest order term in the potential is pure imaginary and hence the system is non-Hermitian. Therefore all the integrations have been carried out along a contour enclosing two complex turning points which lies within a wedge in the complex plane. With the help of some examples we demonstrate the accuracy of the method for both real and complex eigenspectra.

Keywords

Cite

@article{arxiv.1407.0191,
  title  = {Explicit energy expansion for general odd degree polynomial potentials},
  author = {Asiri Nanayakkara and Thilagarajah Mathanaranjan},
  journal= {arXiv preprint arXiv:1407.0191},
  year   = {2014}
}

Comments

10 pages

R2 v1 2026-06-22T04:52:19.234Z