Entanglement concentration in Bose-Einstein condensates
Physical Review A - Atomic, Molecular, and Optical Physics 65:6 A (2002) 643021-643024
Abstract:
A scheme for demonstrating entanglement swapping using trapped Bose-Einstein condensates was presented. The swapping was accomplished by detection of the total number of atoms leaking out of two adjacent traps. The scheme was capable of being used for concentrating the entanglement shared between two parties in the form of entangled condensates.Geometric phases of mesoscopic spin in Bose-Einstein condensates
Physical Review A - Atomic, Molecular, and Optical Physics 66:2 (2002)
Abstract:
A method of testing both Abelian and non-Abelian geometric phases for a general spin-J system modeled by two coupled Bose-Einstein condensates is proposed. The method allows to test geometric phases for spin values as mesoscopic as J∼104.On quantum one-way permutations
Quantum Information and Computation 2:5 (2002) 379-398
Abstract:
We discuss the question of the existence of quantum one-way permutations. First, we consider the question: if a state is difficult to prepare, is the reflection operator about that state difficult to construct? By revisiting Grover's algorithm, we present the relationship between this question and the existence of quantum one-way permutations. Next, we prove the equivalence between inverting a permutation and that of constructing polynomial size quantum networks for reflection operators about a class of quantum states. We will consider both the worst case and the average case complexity scenarios for this problem. Moreover, we compare our method to Grover's algorithm and discuss possible applications of our results.Spin-space entanglement transfer and quantum statistics
Physical Review A - Atomic, Molecular, and Optical Physics 65:6 A (2002) 623051-623054
Abstract:
The role of indistinguishability and particle statistics in a simple information processing scenario was analyzed. A different setting in which particle paths were locally mixed without any interaction of the internal degree of freedom with anything else was introduced. It was observed that for a given path selection one type of particles exhibited some entanglement in the internal degrees of freedom whereas the other exhibited none.A thermodynamical formulation of quantum information
QUANTUM LIMITS TO THE SECOND LAW 643 (2002) 41-46