Relativistic entanglement of two massive particles

Author(s)
Nicolai Friis, Reinhold Bertlmann, Marcus Huber, Beatrix Hiesmayr
Abstract

We describe the spin and momentum degrees of freedom of a system of two massive spin-1/2 particles as a four-qubit system. Then we explicitly show how the entanglement changes between different partitions of the qubits, when considered by different inertial observers. Although the two particle entanglement corresponding to a partition into Alice's and Bob's subsystems is, as often stated in the literature, invariant under Lorentz boosts, the entanglement with respect to other partitions of the Hilbert space on the other hand, is not. It certainly does depend on the chosen inertial frame and on the initial state considered. The change of entanglement arises, because a Lorentz boost on the momenta of the particles causes a Wigner rotation of the spin, which in certain cases entangles the spin with the momentum states. We systematically investigate the situation for different classes of initial spin states and different partitions of the four-qubit space. Furthermore, we study the behavior of Bell inequalities for different observers and demonstrate how the maximally possible degree of violation, using the Pauli-Lubanski spin observable, can be recovered by any inertial observer.

Organisation(s)
Particle Physics
Journal
Physical Review A
Volume
81
No. of pages
9
ISSN
1050-2947
DOI
https://doi.org/10.1103/PhysRevA.81.042114
Publication date
2010
Peer reviewed
Yes
Austrian Fields of Science 2012
1030 Physics, Astronomy
Portal url
https://ucrisportal.univie.ac.at/en/publications/4b063ec2-29b6-4536-8a61-87cc36a7af72