F. Tiefenbacher scite author profile

We report on the experimental implementation of a Bennett-Brassard 1984 (BB84) protocol type quantum key distribution over a 144 km free-space link using weak coherent laser pulses. Optimization of the link transmission was achieved with bidirectional active telescope tracking, and the security was ensured by employing decoy-state analysis. This enabled us to distribute a secure key at a rate of 12.8 bit/s at an attenuation of about 35 dB. Utilizing a simple transmitter setup and an optical ground station capable of tracking a spacecraft in low earth orbit, this outdoor experiment demonstrates the feasibility of global key distribution via satellites.

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High-speed linear optics quantum computing using active feed-forward

Prevedel

Walther

Tiefenbacher

et al. 2007

Nature

352

304

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As information carriers in quantum computing 1 , photonic qubits have the advantage of undergoing negligible decoherence. However, the absence of any significant photonphoton interaction is problematic for the realization of non-trivial two-qubit gates. One solution is to introduce an effective nonlinearity by measurements resulting in probabilistic gate operations 2,3 . In one-way quantum computation 4-8 , the random quantum measurement error can be overcome by applying a feed-forward technique, such that the future measurement basis depends on earlier measurement results. This technique is crucial for achieving deterministic quantum computation once a cluster state (the highly entangled multiparticle state on which one-way quantum computation is based) is prepared. Here we realize a concatenated scheme of measurement and active feed-forward in a one-way quantum computing experiment. We demonstrate that, for a perfect cluster state and no photon loss, our quantum computation scheme would operate with good fidelity and that our feed-forward components function with very high speed and low error for detected photons. With present technology, the individual computational step (in our case the individual feed-forward cycle) can be operated in less than 150 ns using electro-optical modulators. This is an important result for the

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F. Tiefenbacher

Entanglement-based quantum communication over 144 km

Experimental Demonstration of Free-Space Decoy-State Quantum Key Distribution over 144 km

High-speed linear optics quantum computing using active feed-forward

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