English

Exact diagonalization study of double quantum dots in parallel geometry in zero-bandwidth limit

Mesoscale and Nanoscale Physics 2024-10-18 v1

Abstract

Exact eigenstates of the parallel coupled double quantum dots attached to the non-interacting leads taken in zero-bandwidth limit are analytically obtained in each particle and spin sector. The ground state of the half-filled system is identified from a four dimensional subspace of the twenty dimensional Hilbert space for different values of tunable parameters of the system viz. the energy levels of the quantum dots, the interdot tunneling matrix-element, the ondot and interdot Coulomb interactions and quantities like spin-spin correlation between the dots, occupancies of the dots are calculated. In the parameter space of the interdot tunneling matrix-element and ondot Coulomb interaction, the dots exhibit both ferromagnetic and antiferromagnetic correlation. There is a critical dependency of the interdot tunneling matrix-element on the ondot Coulomb interaction which leads to transition from the ferromagnetic correlation to the antiferromagnetic correlation as the interdot tunneling matrix-element is increased. The ferromagnetic and antiferromagnetic correlations also exist in the absence of interdot tunneling matrix-element through indirect exchange via the leads. The interdot Coulomb interaction is found to affect this dependency considerably.

Keywords

Cite

@article{arxiv.1602.03900,
  title  = {Exact diagonalization study of double quantum dots in parallel geometry in zero-bandwidth limit},
  author = {Haroon and M. A. H. Ahsan},
  journal= {arXiv preprint arXiv:1602.03900},
  year   = {2024}
}
R2 v1 2026-06-22T12:48:42.046Z