Alexander Lvovsky

Noise spectra in balanced optical detectors based on transimpedance amplifiers

(2017)

Authors:

AV Masalov, A Kuzhamuratov, AI Lvovsky

Fisher information for far-field linear optical superresolution via homodyne or heterodyne detection in a higher-order local oscillator mode

(2017)

Authors:

Fan Yang, Ranjith Nair, Mankei Tsang, Christoph Simon, Alexander I Lvovsky

Enlargement of optical Schrödinger's cat states

Nature Photonics Springer Nature 11:6 (2017) 379-382

Authors:

Demid V Sychev, Alexander E Ulanov, Anastasia A Pushkina, Matthew W Richards, Ilya A Fedorov, Alexander I Lvovsky

Quantum-secured blockchain

(2017)

Authors:

EO Kiktenko, NO Pozhar, MN Anufriev, AS Trushechkin, RR Yunusov, YV Kurochkin, AI Lvovsky, AK Fedorov

Quantum teleportation between discrete and continuous encodings of an optical qubit

Physical Review Letters American Physical Society 118:16 (2017) 160501

Authors:

Alexander E Ulanov, Demid Sychev, Anastasia A Pushkina, Ilya A Fedorov, AI Lvovsky

Abstract:

The transfer of quantum information between physical systems of a different nature is a central matter in quantum technologies. Particularly challenging is the transfer between discrete and continuous degrees of freedom of various harmonic oscillator systems. Here we implement a protocol for teleporting a continuous-variable optical qubit, encoded by means of low-amplitude coherent states, onto a discrete-variable, single-rail qubit—a superposition of the vacuum and single-photon optical states—via a hybrid entangled resource. We test our protocol on a one-dimensional manifold of the input qubit space and demonstrate the mapping onto the equator of the teleported qubit’s Bloch sphere with an average fidelity of 0.83±0.04. Our work opens up the way to the wide application of quantum information processing techniques where discrete- and continuous-variable encodings are combined within the same optical circuit.