Entanglement Negativity of Spin-Orbit Correlations in a general Qubit-Qudit Setup

Abstract

We present the complete eigenvalue spectrum of the partially transposed density matrix for a pure bipartite quantum state acting on a generic 2 n Hilbert space. The spectrum contains four non-zero eigenvalues, as, eqnarray λ1,2= A, ~~~ λ3,4= 12(11-4 A), eqnarray where A is the determinant of the reduced density matrix (traced over the larger subspace). As 0 ≤slant A ≤slant1/4, only one is negative among the four non-trivial eigenvalues. Within this qubit-qudit framework, we further studied the negativity as a measure of entanglement for the case of spin-orbit correlation of partons inside a proton. The entanglement negativity for spin-orbit correlations is found to be related to the gluon helicity PDF and the Hermitian angle of the associated Hilbert space for linearly polarized protons.