Large cross-phase shifts per photon can be attained through an all-optical polarization control of dipole blockade in Rydberg atoms. A pair of weak circularly polarized signal and control light pulses experience a giant nonlinear cross-interaction through the conditional excitation of a Rydberg state. Conditional cross-phase modulations on the order of π-radians may be attained under specific symmetric EIT quasi-resonant driving conditions at large degrees of transparency. We also suggest the possibility of extending our scheme to work at very low intensities and within a few-blockade-radii regions.
Conditional phase-shift enhancement through dynamical Rydberg blockade / Wu J.-H.; Artoni M.; Cataliotti F.; La Rocca G.C.. - In: EUROPHYSICS LETTERS. - ISSN 0295-5075. - STAMPA. - 120:(2017), pp. 54002-p1-54002-p6. [10.1209/0295-5075/120/54002]
Conditional phase-shift enhancement through dynamical Rydberg blockade
Cataliotti F.;
2017
Abstract
Large cross-phase shifts per photon can be attained through an all-optical polarization control of dipole blockade in Rydberg atoms. A pair of weak circularly polarized signal and control light pulses experience a giant nonlinear cross-interaction through the conditional excitation of a Rydberg state. Conditional cross-phase modulations on the order of π-radians may be attained under specific symmetric EIT quasi-resonant driving conditions at large degrees of transparency. We also suggest the possibility of extending our scheme to work at very low intensities and within a few-blockade-radii regions.
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