Related papers: Rate-fidelity trade-off in cavity-based remote entanglement generation

Rate-fidelity trade-off in cavity-based remote entanglement generation

URL: http://arxiv.org/abs/2403.15179v2
Date: Mon, 25 Mar 2024 08:55:02 GMT
Title: Rate-fidelity trade-off in cavity-based remote entanglement generation
Authors: Kazufumi Tanji, Hiroki Takahashi, Wojciech Roga, Masahiro Takeoka,
Abstract summary: Photonic interconnects between quantum computing modules provide a solution to the qubit scalability problem. We investigate the relationship between the entanglement affected by the spontaneous emission and the waveform of the pump pulse used in the photon generation. We extend our analysis to entanglement distribution in the general multipartite setting and show that the analysis of the bipartite entanglement can be straightforwardly applied in this case as well.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: The qubit scalability imposes a paramount challenge in the field of quantum computing. Photonic interconnects between distinct quantum computing modules provide a solution to deal with this issue. The fundamental part of this approach is entanglement distribution via travelling photons emitted by matter qubits. However, randomness of the spontaneous emission in the matter qubits limits both the entanglement fidelity and the generation rate. In this paper, by numerical and analytical methods, we investigate the relationship between the entanglement affected by the spontaneous emission and the waveform of the pump pulse used in the photon generation. We confirm and analyze a rate-fidelity trade-off in the entanglement swapping with Gaussian pump pulses and show that a simple extension to non-Gaussian pump pulses improves the trade-off in a certain parameter region. Furthermore we extend our analysis to entanglement distribution in the general multipartite setting and show that the analysis of the bipartite entanglement can be straightforwardly applied in this case as well.

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