Zongfeng Li scite author profile

The faithful storage and coherent manipulation of quantum states with matter-systems would enable the realization of large-scale quantum networks based on quantum repeaters. To achieve useful communication rates, highly multimode quantum memories are required to construct a multiplexed quantum repeater. Here, we present a demonstration of on-demand storage of orbital-angular-momentum states with weak coherent pulses at the single-photon-level in a rare-earth-ion-doped crystal. Through the combination of this spatial degree-of-freedom (DOF) with temporal and spectral degrees of freedom, we create a multiple-DOF memory with high multimode capacity. This device can serve as a quantum mode converter with high fidelity, which is a fundamental requirement for the construction of a multiplexed quantum repeater. This device further enables essentially arbitrary spectral and temporal manipulations of spatial-qutrit-encoded photonic pulses in real time. Therefore, the developed quantum memory can serve as a building block for scalable photonic quantum information processing architectures.

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Heralded entanglement distribution between two absorptive quantum memories

Liu

et al. 2021

Nature

115

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Experimental observation of anomalous trajectories of single photons

et al. 2017

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A century after its conception, quantum mechanics still hold surprises that contradict many "common sense" notions. The contradiction is especially sharp in case one consider trajectories of truly quantum objects such as single photons. From a classical point of view, trajectories are well defined for particles, but not for waves. The wave-particle duality forces a breakdown of this dichotomy and quantum mechanics resolves this in a remarkable way: Trajectories can be well defined, but they are utterly different from classical trajectories. Here, we give an operational definition to the trajectory of a single photon by introducing a novel technique to mark its path using its spectral composition. The method demonstrates that the frequency degree of freedom can be used as a bona fide quantum measurement device (meter). The analysis of a number of setups, using our operational definition, leads to anomalous trajectories which are non-continuous and in some cases do not even connect the source of the photon to where it is detected. We carried out an experimental demonstration of these anomalous trajectories using a nested interferometer. We show that the Two-state vector formalism provides a simple explanation for the results.

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A two-dimensional h-BN/C₂N heterostructure as a promising metal-free photocatalyst for overall water-splitting

Wang

et al. 2020

Phys. Chem. Chem. Phys.

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A two-dimensional CdO/CdS heterostructure used for visible light photocatalysis

Wang

Gong

et al. 2020

Phys. Chem. Chem. Phys.

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A Raman heterodyne study of the hyperfine interaction of the optically-excited state 5D0 of Eu3+:Y2SiO5

Zhou

Liu

et al. 2018

Journal of Luminescence

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Interaction of water-soluble cationic porphyrin with anionic surfactant

Qiu

Bai

et al. 2007

Spectrochimica Acta Part A: Molecular and Biomolecular Spectros

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Hyperfine Structure and Coherent Dynamics of Rare-Earth Spins Explored with Electron-Nuclear Double Resonance at Subkelvin Temperatures

Liu

Zhou

et al. 2020

Phys. Rev. Applied

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An experimental platform of ultralow-temperature pulsed ENDOR (electron-nuclear double resonance) spectroscopy is constructed for the bulk materials. Coherent property of the coupled electron and nuclear spins of the rare-earth (RE) dopants in a crystal ( 143 Nd 3+ :Y2SiO5) is investigated from 100 mK to 6 K. At the lowest working temperatures, two-pulse-echo coherence time exceeding 2 ms and 40 ms are achieved for the electron and nuclear spins, while the electronic Zeeman and hyperfine population lifetimes are more than 15 s and 10 min. With the aid of the near-unity electron spin polarization at 100 mK, the complete hyperfine level structure with 16 energy levels is measured using ENDOR technique without the assistance of the reconstructed spin Hamiltonian. These results demonstrate the suitability of the deeply cooled paramagnetic RE-doped solids for memory components aimed for quantum communication and quantum computation. The developed experimental platform is expected to be a powerful tool for paramagnetic materials from various research fields.

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Zongfeng Li

Multiplexed storage and real-time manipulation based on a multiple degree-of-freedom quantum memory

Heralded entanglement distribution between two absorptive quantum memories

Experimental observation of anomalous trajectories of single photons

A two-dimensional h-BN/C₂N heterostructure as a promising metal-free photocatalyst for overall water-splitting

A two-dimensional CdO/CdS heterostructure used for visible light photocatalysis

A Raman heterodyne study of the hyperfine interaction of the optically-excited state 5D0 of Eu3+:Y2SiO5

Interaction of water-soluble cationic porphyrin with anionic surfactant

Hyperfine Structure and Coherent Dynamics of Rare-Earth Spins Explored with Electron-Nuclear Double Resonance at Subkelvin Temperatures

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About

Zongfeng Li

Multiplexed storage and real-time manipulation based on a multiple degree-of-freedom quantum memory

Heralded entanglement distribution between two absorptive quantum memories

Experimental observation of anomalous trajectories of single photons

A two-dimensional h-BN/C2N heterostructure as a promising metal-free photocatalyst for overall water-splitting

A two-dimensional CdO/CdS heterostructure used for visible light photocatalysis

A Raman heterodyne study of the hyperfine interaction of the optically-excited state 5D0 of Eu3+:Y2SiO5

Interaction of water-soluble cationic porphyrin with anionic surfactant

Hyperfine Structure and Coherent Dynamics of Rare-Earth Spins Explored with Electron-Nuclear Double Resonance at Subkelvin Temperatures

Contact Info

Product

Resources

About

A two-dimensional h-BN/C₂N heterostructure as a promising metal-free photocatalyst for overall water-splitting