In this paper we review our recent works on the generation of different Bell states within the lineshape ofparametric down-conversion (SPDC) and their possible applications. Indeed, for polarization-entangled two-photon states produced via SPDC, the frequency-angular lineshape allowed by phase matching is considered. It is shown that there are always different Bell states generated for different mismatch values within the natural bandwidth. Consideration is made for two different methods of polarization entanglement preparation, based on type-II SPDC and on SPDC in two type-I crystals producingorthogonally polarized photon pairs. Different Bell states can be filtered out by either frequency selection or angular selection, or both. Our theoretical calculations are confirmed by a series of experiments, performed for the two above-mentioned ways of producing polarization-entangled photon pairs and with two kinds of measurements: frequency-selective and angular-selective. Finally, we mention possible application to quantum communication with fibers.
Report on proof-of-principle implementations of novel QKD schemes performedat INRIM / Avella, Alessio; Brida, Giorgio; Dino, Carpentras; Andrea, Cavanna; Degiovanni, IVO PIETRO; Genovese, Marco; Gramegna, Marco; Traina, Paolo. - 8542:(2012). (Intervento presentato al convegno SPIE Electro-Optical Remote Sensing, Photonic Technologies, and Applications tenutosi a Edinburgh, United Kingdom nel Semptember 24-27, 2012) [10.1117/12.974608].
Report on proof-of-principle implementations of novel QKD schemes performedat INRIM
AVELLA, ALESSIO;BRIDA, GIORGIO;DEGIOVANNI, IVO PIETRO;Marco Genovese;GRAMEGNA, MARCO;TRAINA, PAOLO
2012
Abstract
In this paper we review our recent works on the generation of different Bell states within the lineshape ofparametric down-conversion (SPDC) and their possible applications. Indeed, for polarization-entangled two-photon states produced via SPDC, the frequency-angular lineshape allowed by phase matching is considered. It is shown that there are always different Bell states generated for different mismatch values within the natural bandwidth. Consideration is made for two different methods of polarization entanglement preparation, based on type-II SPDC and on SPDC in two type-I crystals producingorthogonally polarized photon pairs. Different Bell states can be filtered out by either frequency selection or angular selection, or both. Our theoretical calculations are confirmed by a series of experiments, performed for the two above-mentioned ways of producing polarization-entangled photon pairs and with two kinds of measurements: frequency-selective and angular-selective. Finally, we mention possible application to quantum communication with fibers.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
