A scheme based on photonic crystal technology is proposed as an ultrabright source of entangled photons on a miniaturized scale. The geometry consists of a multilayer microcavity, excited by a resonant pump frequency, such that the emitted photons are guided transversally to the direction of the incident pump. The entanglement occurs in direction, frequency, and polarization, and the bandwidth of the emitted photons is of the order of 1 nm. We propose a feasible design based on Al0.3Ga0.7As/Al2O3 structures and predict an emission rate 10(5) pairs per second with 100 mW pump power. These results are promising for realization of chip and future quantum computer applications.
Entangled, guided photon generation in (1+1)-dimensional photonic crystals / L., Sciscione; Centini, Marco; Sibilia, Concetta; Bertolotti, Mario; M., Scalora. - In: PHYSICAL REVIEW A. - ISSN 1050-2947. - STAMPA. - 74:1(2006), pp. 013815-1-013815-6. [10.1103/physreva.74.013815]
Entangled, guided photon generation in (1+1)-dimensional photonic crystals
CENTINI, MARCO;SIBILIA, Concetta;BERTOLOTTI, Mario;
2006
Abstract
A scheme based on photonic crystal technology is proposed as an ultrabright source of entangled photons on a miniaturized scale. The geometry consists of a multilayer microcavity, excited by a resonant pump frequency, such that the emitted photons are guided transversally to the direction of the incident pump. The entanglement occurs in direction, frequency, and polarization, and the bandwidth of the emitted photons is of the order of 1 nm. We propose a feasible design based on Al0.3Ga0.7As/Al2O3 structures and predict an emission rate 10(5) pairs per second with 100 mW pump power. These results are promising for realization of chip and future quantum computer applications.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
