Hole Binding in a One-Dimensional Long-Range Spin ½ Interaction System

POSTER

Abstract

Using a Lanczos tridiagonal scheme to generate our basis, we study the novel spin chain Hamiltonian (expected to be in the same universality class as an XY Heisenberg system) given by H = ∑N−1j=1 Nk=1 j(−1−p) [S(+)k+j S(−)k + S(−)k+j S(+)k + λ (S(z)k+j S(z)k + S(z)k S(z)k+j)]. By varying the initial (trial) state, we then study the hole binding energy, EB = E0 (two holes) + E0 (no holes) − 2E0 (one hole), as a function of hole separation, anisotropy parameter λ as well as the parameter p.

Presenters

  • Jay Mancini

    • Department of Physical Sciences, Kingsborough Community College of CUNY

Authors

  • Jay Mancini

    • Department of Physical Sciences, Kingsborough Community College of CUNY

  • Samuel Bowen

    • Department of Chemistry and Physics, Chicago State University

  • Vassilios Fessatidis

    • Department of Physics & Engineering Physics, Fordham University
    • Department of Physics and Engineering Physics, Fordham University