Given a bipartite density matrix ρ of a quantum state, the Quantum Separability
problem (QUSEP) asks — is ρ entangled, or separable? In this thesis, we first
strengthen Gurvits’ 2003 NP-hardness result for QUSEP by showing that the Weak
Membership problem over the set of separable bipartite quantum states is strongly
NP-hard, meaning it is NP-hard even when the error margin is as large as inverse
polynomial in the dimension, i.e. is “moderately large”. Previously, this NP-hardness was known only to hold in the case of inverse exponential error. We observe
the immediate implication of NP-hardness of the Weak Membership problem over the set of entanglement-breaking maps, as well as lower bounds on the maximum (Euclidean) distance possible between a bound entangled state and the separable set of quantum states (assuming P ≠ NP).
We next investigate the entanglement-detecting capabilities of locally invariant
unitary operations, as proposed by Fu in 2006. Denoting the subsystems of ρ as
A and B, such that ρ_B = Tr_A(ρ), a locally invariant unitary operation U^B is one
with the property U^B ρ_B (U^B)^† = ρ_B. We investigate the maximum shift (in Euclidean
distance) inducible in ρ by applying I⊗U^B, over all locally invariant choices of U^B.
We derive closed formulae for this quantity for three cases of interest: (pseudo)pure
quantum states of arbitrary dimension, Werner states of arbitrary dimension, and
two-qubit states. Surprisingly, similar to recent anomalies detected for non-locality
measures, the first of these formulae demonstrates the existence of non-maximally
entangled states attaining shifts as large as maximally entangled ones. Using the latter of these formulae, we demonstrate for certain classes of two-qubit states an equivalence between the Fu criterion and the CHSH inequality. Among other results, we investigate the ability of locally invariant unitary operations to detect bound entanglement.
| Identifer | oai:union.ndltd.org:WATERLOO/oai:uwspace.uwaterloo.ca:10012/3991 |
| Date | January 2008 |
| Creators | Gharibian, Sevag |
| Source Sets | University of Waterloo Electronic Theses Repository |
| Language | English |
| Detected Language | English |
| Type | Thesis or Dissertation |
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