Jonathan Muller scite author profile

Quantum networks are essential for realising distributed quantum computation and quantum communication. Entangled photons are a key resource, with applications such as quantum key distribution, quantum relays, and quantum repeaters. All components integrated in a quantum network must be synchronised and therefore comply with a certain clock frequency. In quantum key distribution, the most mature technology, the current standard clock rate is 1GHz. Here we show the first electrically pulsed sub-Poissonian entangled photon source compatible with existing fiber networks operating at this clock rate. The entangled LED is based on InAs/InP quantum dots emitting in the main telecom window, with a multi-photon probability of less than 10% per emission cycle and a maximum entanglement fidelity of 89%. We use this device to demonstrate GHz clocked distribution of entangled qubits over an installed fiber network between two points 4.6km apart.

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High-resolution spectroscopy of a quantum dot driven bichromatically by two strong coherent fields

Gustin

Hanschke

Boos

et al. 2021

Phys. Rev. Research

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Jonathan Muller

A 7-Bit 18th Order 9.6 GS/s FIR Up-Sampling Filter for High Data Rate 60-GHz Wireless Transmitters

1GHz clocked distribution of electrically generated entangled photon pairs

High-resolution spectroscopy of a quantum dot driven bichromatically by two strong coherent fields

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