2016
DOI: 10.1103/physreva.94.042328
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Tomographic reconstruction of time-bin-entangled qudits

Abstract: We describe an experimental implementation to generate and measure high-dimensional, time-bin entangled qudits. Two-photon time-bin entanglement is generated via spontaneous four-wave mixing in single-mode fiber. Unbalanced Mach-Zehnder interferometers transform selected time-bins to polarization entanglement, allowing standard polarization-projective measurements to be used for complete quantum state tomographic reconstruction. Here, we generate maximally entangled qubits (d = 2), qutrits (d = 3), and ququart… Show more

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Cited by 17 publications
(8 citation statements)
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“…11. High-dimensional two-qudit state tomography of entangled photons has been demonstrated with encodings in time-binned modes [84,140], spectral binned-modes [141,142], and orbital angular momentum spatial modes [143]. To avoid the intense resource devotion needed for full tomographic reconstruction, properties such as entanglement can be verified with witnesses instead [144][145][146][147].…”
Section: Towards Applications Of Temporal Modes In Quantum Informatio...mentioning
confidence: 99%
“…11. High-dimensional two-qudit state tomography of entangled photons has been demonstrated with encodings in time-binned modes [84,140], spectral binned-modes [141,142], and orbital angular momentum spatial modes [143]. To avoid the intense resource devotion needed for full tomographic reconstruction, properties such as entanglement can be verified with witnesses instead [144][145][146][147].…”
Section: Towards Applications Of Temporal Modes In Quantum Informatio...mentioning
confidence: 99%
“…This figure is commonly used to describe how close the estimated state is to the actual one, e.g. [37][38][39]. Such a quantity can also be applied to test the efficiency of the quantum tomography framework in the case of simulated measurement results [40].…”
Section: B Performance Analysismentioning
confidence: 99%
“…Currently, however, high-dimensional entanglement-entangled qudits-is attracting much attention because its larger Hilbert space allows us to enrich the functionality of quantum communications protocols. Entangled qudits have been investigated on the basis of various optical orthogonal modes, including orbital angular momentum (OAM) [14][15][16][17] , frequency [18][19][20] , time [21][22][23][24][25][26] , and combinations of different optical modes, or hyper entanglement 27 . Entangled qudits can be used to overcome the channel capacity limit for linear photonic superdense coding 28 .…”
Section: Introductionmentioning
confidence: 99%