We show that the results of classical experiments allow for an accurate prediction of quantum correlated photon-pair generation efficiencies, opening a path to move from classical to quantum nonlinear optics in integrated photonic structures.3 page(s
We present equations for the power generated via spontaneous (quantum) and stimulated (classical) no...
We present equations for the power generated via spontaneous (quantum) and stimulated (classical) no...
We present theoretical and experimental advances towards efficient photon-pair generation through sp...
We show that the results of classical experiments allow for an accurate prediction of quantum correl...
We present a simple and flexible method for a rigorous description of nonlinear phenomena in photoni...
We show that the results of classical experiments allow for an accurate prediction of quantum correl...
We show that the results of classical experiments allow for an accurate prediction of quantum correl...
We present a simple and flexible method for a rigorous description of nonlinear phenomena in photoni...
We present simple expressions for the power generated via continuous-wave classical and quantum nonl...
This thesis presents an analysis of photon pairs generated via either spontaneous parametric downcon...
The realization of strong interactions between individual photons is a long-standing goal of both fu...
The realization of strong interactions between individual photons is a long-standing goal of both fu...
We present equations for the power generated via spontaneous (quantum) and stimulated (classical) no...
We present equations for the power generated via spontaneous (quantum) and stimulated (classical) no...
The realization of strong interactions between individual photons is a long-standing goal of both fu...
We present equations for the power generated via spontaneous (quantum) and stimulated (classical) no...
We present equations for the power generated via spontaneous (quantum) and stimulated (classical) no...
We present theoretical and experimental advances towards efficient photon-pair generation through sp...
We show that the results of classical experiments allow for an accurate prediction of quantum correl...
We present a simple and flexible method for a rigorous description of nonlinear phenomena in photoni...
We show that the results of classical experiments allow for an accurate prediction of quantum correl...
We show that the results of classical experiments allow for an accurate prediction of quantum correl...
We present a simple and flexible method for a rigorous description of nonlinear phenomena in photoni...
We present simple expressions for the power generated via continuous-wave classical and quantum nonl...
This thesis presents an analysis of photon pairs generated via either spontaneous parametric downcon...
The realization of strong interactions between individual photons is a long-standing goal of both fu...
The realization of strong interactions between individual photons is a long-standing goal of both fu...
We present equations for the power generated via spontaneous (quantum) and stimulated (classical) no...
We present equations for the power generated via spontaneous (quantum) and stimulated (classical) no...
The realization of strong interactions between individual photons is a long-standing goal of both fu...
We present equations for the power generated via spontaneous (quantum) and stimulated (classical) no...
We present equations for the power generated via spontaneous (quantum) and stimulated (classical) no...
We present theoretical and experimental advances towards efficient photon-pair generation through sp...
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