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High-fidelity entanglement between a trapped ion and a telecom photon via quantum frequency conversion.


ABSTRACT: Entanglement between a stationary quantum system and a flying qubit is an essential ingredient of a quantum-repeater network. It has been demonstrated for trapped ions, trapped atoms, color centers in diamond, or quantum dots. These systems have transition wavelengths in the blue, red or near-infrared spectral regions, whereas long-range fiber-communication requires wavelengths in the low-loss, low-dispersion telecom regime. A proven tool to interconnect flying qubits at visible/NIR wavelengths to the telecom bands is quantum frequency conversion. Here we use an efficient polarization-preserving frequency converter connecting 854?nm to the telecom O-band at 1310?nm to demonstrate entanglement between a trapped 40Ca+ ion and the polarization state of a telecom photon with a high fidelity of 98.2?±?0.2%. The unique combination of 99.75?±?0.18% process fidelity in the polarization-state conversion, 26.5% external frequency conversion efficiency and only 11.4 photons/s conversion-induced unconditional background makes the converter a powerful ion-telecom quantum interface.

SUBMITTER: Bock M 

PROVIDER: S-EPMC5962555 | biostudies-literature | 2018 May

REPOSITORIES: biostudies-literature

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High-fidelity entanglement between a trapped ion and a telecom photon via quantum frequency conversion.

Bock Matthias M   Eich Pascal P   Kucera Stephan S   Kreis Matthias M   Lenhard Andreas A   Becher Christoph C   Eschner Jürgen J  

Nature communications 20180521 1


Entanglement between a stationary quantum system and a flying qubit is an essential ingredient of a quantum-repeater network. It has been demonstrated for trapped ions, trapped atoms, color centers in diamond, or quantum dots. These systems have transition wavelengths in the blue, red or near-infrared spectral regions, whereas long-range fiber-communication requires wavelengths in the low-loss, low-dispersion telecom regime. A proven tool to interconnect flying qubits at visible/NIR wavelengths  ...[more]

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