Related papers: Fermionic logarithmic negativity in the Krawtchouk chain

Fermionic logarithmic negativity in the Krawtchouk chain

URL: http://arxiv.org/abs/2408.16531v2
Date: Wed, 6 Nov 2024 14:28:19 GMT
Title: Fermionic logarithmic negativity in the Krawtchouk chain
Authors: Gabrielle Blanchet, Gilles Parez, Luc Vinet,
Abstract summary: entanglement of non-complementary regions is investigated in an inhomogeneous free-fermion chain. For adjacent regions, negativity scaling corresponds to that of a conformal field theory. For disjoint regions, we focus on the skeletal regime where each region reduces to a single site.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: The entanglement of non-complementary regions is investigated in an inhomogeneous free-fermion chain through the lens of the fermionic logarithmic negativity. Focus is on the Krawtchouk chain, whose relation to the eponymous orthogonal polynomials allows for exact diagonalization and analytical calculations of certain correlation functions. For adjacent regions, the negativity scaling corresponds to that of a conformal field theory with central charge $c=1$, in agreement with previous studies on bipartite entanglement in the Krawtchouk chain. For disjoint regions, we focus on the skeletal regime where each region reduces to a single site. This regime is sufficient to extract the leading behaviour at large distances. In the bulk, the negativity decays as $d^{-4 \Delta_f}$ with $\Delta_f=1/2$, where $d$ is the separation between the regions. This is in agreement with the homogeneous result of free Dirac fermions in one dimension. Surprisingly, when one site is close to the boundary, this exponent changes and depends on the parity of the boundary site $m=0,1,2,\dots$, with $\Delta_f^{\textrm{even}}=3/8$ and $\Delta_f^{\textrm{odd}}=5/8$. The results are supported by numerics and analytical calculations.

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