Zafar Ahmed, Sachin Kumar, Achint Kumar, Mohammad Irfan
Published 2017-02-27Version 1
The sub-barrier pairs of energy levels of a Hermitian one-dimensional symmetric double well potential are known to merge into one, if the inter-well distance ($a$) is increased slowly. The energy at which the doublets merge are the ground state eigenvalues of independent wells ($\epsilon_0$). We show that if the double well is perturbed mildly by a complex PT-symmetric potential the merging of levels turns into the coalescing of two levels at an exceptional point $a=a_*$. For $a>a_*$, the real part of complex-conjugate eigenvalues coincides with $\epsilon_0$ again. This is an interesting and rare connection between the two phenomena in two domains: Hermiticity and complex PT-symmetry.
Comments: 7 pages and 5 figures
Energy levels and extension of the Schrodinger operator
A q-Oscillator with 'Accidental' Degeneracy of Energy Levels
Energy levels and decoherence properties of single electron and nuclear spins in a defect center in diamond
![QR code for arXiv:1702.08335 [quant-ph]](http://oss.arxitics.com/images/favicon.svg)