A. Weiner (US) Purdue University
Purdue UniversityAuthor Of 3 Presentations
TuF1.1 - FREQUENCY BIN QUANTUM PHOTONICS
Abstract
Abstract
Recent experiments have demonstrated entanglement and encoding of quantum information in discrete photonic frequency bins. In this talk I describe manipulation and measurement of qubits and qudits encoded and entangled in superpositions of frequencies as well as other photonic degrees of freedom.
TuF2.2 - EFFECT OF PUMP BANDWIDTH ON MEASUREMENTS OF FREQUENCY-BIN ENTANGLEMENT.
Abstract
Abstract
Based on two-photon interference measurements for various pump line-pulse shaper detunings, we show that frequency-bin entanglement can be established in regimes where the pump bandwidth is less than the free spectral range of the biphoton frequency comb.
TuH2.4 - ALL-OPTICAL PROCESSING WITH DYNAMIC FREQUENCY TRANSFORMATIONS
Abstract
Abstract
We propose an all-optical frequency processor (AFP) for transparent optical networking, based on optical pulse shaping and electro-optic phase modulation. We numerically examine the AFP for frequency channel hopping and broadcasting operations, and show the required number of components scales favorably with the network size.
Presenter Of 1 Presentation
TuF1.1 - FREQUENCY BIN QUANTUM PHOTONICS
Abstract
Abstract
Recent experiments have demonstrated entanglement and encoding of quantum information in discrete photonic frequency bins. In this talk I describe manipulation and measurement of qubits and qudits encoded and entangled in superpositions of frequencies as well as other photonic degrees of freedom.