Jain A, Chakrabarty N, Chatterjee S (2019)
Publication Type: Journal article
Publication year: 2019
Book Volume: 99
Article Number: 022315
Journal Issue: 2
DOI: 10.1103/PhysRevA.99.022315
In this work, we exhaustively investigate 1→2 local and nonlocal broadcasting of entanglement as well as correlations beyond entanglement (geometric discord) using asymmetric Pauli cloners with the most general two-qubit state as the resource. We exemplify asymmetric broadcasting of entanglement using "maximally entangled mixed states." We demonstrate the variation of broadcasting range with the amount of entanglement present in the resource state as well as with the asymmetry in the cloner. We show that it is impossible to optimally broadcast geometric discord with the help of these asymmetric Pauli cloning machines. We also study the problem of 1→3 broadcasting of entanglement using nonmaximally entangled state as the resource. For this task, we introduce a method we call successive broadcasting which involves application of 1→2 optimal cloning machines multiple times. We compare and contrast the performance of this method with the application of direct 1→3 optimal cloning machines. We show that 1→3 optimal cloner does a better job at broadcasting than the successive application of 1→2 cloners and the successive method can be beneficial in the absence of 1→3 cloners. We also bring out the fundamental difference between the tasks of cloning and broadcasting in the final part of the paper. We create examples to show that there exist local unitaries which can be employed to give a better range for broadcasting. Such unitary operations are not only economical, but also surpass the best possible range obtained using existing cloning machines enabling broadcasting of lesser entangled states. This result opens up a direction in exploration of methods to facilitate broadcasting which may outperform the standard strategies implemented through cloning transformations.
APA:
Jain, A., Chakrabarty, N., & Chatterjee, S. (2019). Asymmetric broadcasting of quantum correlations. Physical Review A, 99(2). https://dx.doi.org/10.1103/PhysRevA.99.022315
MLA:
Jain, Aditya, Ndranil Chakrabarty, and Sourav Chatterjee. "Asymmetric broadcasting of quantum correlations." Physical Review A 99.2 (2019).
BibTeX: Download