Title :
Toward Continuous-Wave Regime Teleportation for Light Matter Quantum Relay Stations
Author :
Kaiser, Florian ; Issautier, Amandine ; Ngah, Lutfi A. ; Aktas, Djeylan ; Delord, Tom ; Tanzilli, Sebastien
Author_Institution :
Lab. de Phys. de la Mater. Condensee, Univ. Nice Sophia Antipolis, Nice, France
Abstract :
We report a teleportation experiment involving narrowband entangled photons at 1560 nm and qubit photons at 795 nm emulated by faint laser pulses. A nonlinear difference frequency generation stage converts the 795-nm photons to 1560 nm in order to enable interference with one photon out of the pairs, i.e., at the same wavelength. The spectral bandwidth of all involved photons is of about 25 MHz, which is close to the emission bandwidth of emissive quantum memory devices, notably those based on ensembles of cold atoms and rare earth ions. This opens the route toward the realization of hybrid quantum nodes, i.e., combining quantum memories and entanglement-based quantum relays exploiting either a synchronized (pulsed) or a asynchronous (continuous-wave) scenario.
Keywords :
light interference; optical frequency conversion; optical storage; quantum computing; quantum entanglement; quantum optics; teleportation; asynchronous continuous-wave scenario; cold atoms; continuous-wave regime teleportation; emission bandwidth; emissive quantum memory devices; entanglement-based quantum relays; hybrid quantum nodes; interference; laser pulses; light matter quantum relay stations; narrowband entangled photons; nonlinear difference frequency generation; qubit photons; rare earth ions; spectral bandwidth; synchronized pulsed scenario; wavelength 1560 nm; wavelength 795 nm; Bandwidth; Modulation; Noise; Nonlinear optics; Photonics; Stimulated emission; Teleportation; Quantum teleportation; coherent quantum interface; nonlinear optical processes; photonic entanglement;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2014.2381465
