Related papers: Entanglement distribution with wavevector-multiplexed quantum memory

Entanglement distribution with wavevector-multiplexed quantum memory

URL: http://arxiv.org/abs/2007.00538v1
Date: Wed, 1 Jul 2020 15:03:58 GMT
Title: Entanglement distribution with wavevector-multiplexed quantum memory
Authors: Micha{\l} Lipka, Mateusz Mazelanik, Micha{\l} Parniak
Abstract summary: We show the WV-MUX-QM platform to provide quasi-deterministic entanglement generation over extended distances. We establish the entangled-bit (ebit) rate per number of employed nodes as a practical figure of merit.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Feasible distribution of quantum entanglement over long distances remains a fundamental step towards quantum secure communication and quantum network implementations. Quantum repeater nodes based on quantum memories promise to overcome exponential signal decay inherent to optical implementations of quantum communication. While performance of current quantum memories hinders their practical application, multimode solutions with multiplexing can offer tremendous increase in entanglement distribution rates. We propose to use a wavevector-multiplexed atomic quantum memory (WV-MUX-QM) as a fundamental block of a multiplexed quantum repeater architecture. We show the WV-MUX-QM platform to provide quasi-deterministic entanglement generation over extended distances, mitigating the fundamental issue of optical loss even with currently available quantum memory devices, and exceeding performance of repeaterless solutions as well as other repeater-based protocols such as temporal multiplexing. We establish the entangled-bit (ebit) rate per number of employed nodes as a practical figure of merit reflecting the cost-efficiency of larger inter-node distances.

Related papers

A Quantum-Classical Collaborative Training Architecture Based on Quantum State Fidelity [50.387179833629254]
We introduce a collaborative classical-quantum architecture called co-TenQu. Co-TenQu enhances a classical deep neural network by up to 41.72% in a fair setting. It outperforms other quantum-based methods by up to 1.9 times and achieves similar accuracy while utilizing 70.59% fewer qubits.
arXiv Detail & Related papers (2024-02-23T14:09:41Z)
Multimode Squeezed State for Reconfigurable Quantum Networks at Telecommunication Wavelengths [0.0]
We present an experimental source of multimode squeezed states of light at telecommunication wavelengths. Generation at such wavelengths is especially important as it can enable quantum information processing, communication, and sensing beyond the laboratory scale. Results pave the way for a scalable implementation of continuous variable quantum information protocols at telecommunication wavelengths.
arXiv Detail & Related papers (2023-06-12T17:52:40Z)
Multi-User Entanglement Distribution in Quantum Networks Using Multipath Routing [55.2480439325792]
We propose three protocols that increase the entanglement rate of multi-user applications by leveraging multipath routing. The protocols are evaluated on quantum networks with NISQ constraints, including limited quantum memories and probabilistic entanglement generation.
arXiv Detail & Related papers (2023-03-06T18:06:00Z)
Simulation of Entanglement Generation between Absorptive Quantum Memories [56.24769206561207]
We use the open-source Simulator of QUantum Network Communication (SeQUeNCe), developed by our team, to simulate entanglement generation between two atomic frequency comb (AFC) absorptive quantum memories. We realize the representation of photonic quantum states within truncated Fock spaces in SeQUeNCe. We observe varying fidelity with SPDC source mean photon number, and varying entanglement generation rate with both mean photon number and memory mode number.
arXiv Detail & Related papers (2022-12-17T05:51:17Z)
Oblivious Quantum Computation and Delegated Multiparty Quantum Computation [61.12008553173672]
We propose a new concept, oblivious computation quantum computation, where secrecy of the input qubits and the program to identify the quantum gates are required. Exploiting quantum teleportation, we propose a two-server protocol for this task. Also, we discuss delegated multiparty quantum computation, in which, several users ask multiparty quantum computation to server(s) only using classical communications.
arXiv Detail & Related papers (2022-11-02T09:01:33Z)
Quantum Zeno Repeaters [0.0]
Quantum repeaters pave the way for long-distance quantum communications and quantum Internet. Our work has potential to contribute to long distance quantum communications and quantum computing via quantum Zeno effect.
arXiv Detail & Related papers (2022-06-17T13:56:44Z)
Backward propagating quantum repeater protocol with multiple quantum memories [0.0]
We propose a quantum repeater protocol based on backward propagating photon emission and absorption. It is applicable to various physical systems and opens up the possibility of high-speed high-fidelity quantum networks.
arXiv Detail & Related papers (2022-05-09T12:42:51Z)
Multicell Atomic Quantum Memory as a Hardware-Efficient Quantum Repeater Node [10.687357167527669]
We report a compact and hardware-efficient realization of a quantum repeater node using a single atomic ensemble for multicell quantum memories. We achieve heralded asynchronous entanglement generation in two quantum repeater segments one after another and then an on-demand entanglement connection of these two repeater segments. This work provides a promising constituent for efficient realization of quantum repeaters for large-scale quantum networks.
arXiv Detail & Related papers (2021-10-18T19:32:36Z)
Experimental demonstration of memory-enhanced scaling for entanglement connection of quantum repeater segments [13.78819436405072]
The quantum repeater protocol is a promising approach to implement long-distance quantum communication and large-scale quantum networks. Here we report an experiment which realizes efficient connection of two quantum repeater segments via on-demand entanglement swapping. The experimental realization of entanglement connection of two quantum repeater segments with an efficient memory-enhanced scaling demonstrates a key advantage of the quantum repeater protocol.
arXiv Detail & Related papers (2021-01-21T10:43:47Z)
Telecom-heralded entanglement between remote multimode solid-state quantum memories [55.41644538483948]
Future quantum networks will enable the distribution of entanglement between distant locations and allow applications in quantum communication, quantum sensing and distributed quantum computation. Here we report the demonstration of heralded entanglement between two spatially separated quantum nodes, where the entanglement is stored in multimode solid-state quantum memories. We also show that the generated entanglement is robust against loss in the heralding path, and demonstrate temporally multiplexed operation, with 62 temporal modes.
arXiv Detail & Related papers (2021-01-13T14:31:54Z)
Direct Quantum Communications in the Presence of Realistic Noisy Entanglement [69.25543534545538]
We propose a novel quantum communication scheme relying on realistic noisy pre-shared entanglement. Our performance analysis shows that the proposed scheme offers competitive QBER, yield, and goodput.
arXiv Detail & Related papers (2020-12-22T13:06:12Z)

This list is automatically generated from the titles and abstracts of the papers in this site.