Journal article


Generation of total angular momentum eigenstates in remote qubits


Publication Details
Author(s): Maser A, Schilling U, Bastin T, Solano E, Thiel C, von Zanthier J
Publisher: American Physical Society
Publication year: 2009
Volume: 79
Journal issue: 3
ISSN: 1050-2947

Abstract

We propose a scheme enabling the universal coupling of angular momentum of N remote noninteracting qubits using linear optical tools only. Our system consists of N single-photon emitters in a Lambda configuration that are entangled among their long-lived ground-state qubits through suitably designed measurements of the emitted photons. In this manner, we present an experimentally feasible algorithm that is able to generate any of the 2(N) symmetric and nonsymmetric total angular momentum eigenstates spanning the Hilbert space of the N-qubit compound.



How to cite
APA: Maser, A., Schilling, U., Bastin, T., Solano, E., Thiel, C., & von Zanthier, J. (2009). Generation of total angular momentum eigenstates in remote qubits. Physical Review A, 79(3). https://dx.doi.org/10.1103/PhysRevA.79.033833

MLA: Maser, Andreas, et al. "Generation of total angular momentum eigenstates in remote qubits." Physical Review A 79.3 (2009).

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