Developing Topographical Insulator Fiber based Photon Pairs Source for Ultrafast Optoelectronic Applications
Abstract
The goal of this proposal is to generate photon pairs in a nanolayer topological insulator (Tl: Bi2Se3) deposited on an end-facet of an optical fiber. The large Kerr nonlinearity and fast optical response of magneto-optical effect due to surface state of Tl can be expected to integrate the photon-pair source with terahertz optoelectronic devices. The purity of the photon pairs and the quality of entanglement generated through this new state of nonlinearity will be studied through photon-counting techniques. We intend to quantify the purity of the photon pairs by measuring the coincidence to accidental coincidence ratio (CAR). We then use a modified version of a counter propagating scheme for generating two-photon polarization entangled state. We intend to study the use of magnetic control of the x<3l_nonlinear susceptibility and phase matching compensation of linear dispersion via the Faraday Effect to modify, activate and de-activate entangled photon-pair production. Theoretical and experimental studies for the generation and enhancement of photon-pair production will be conducted.
Document Details
- Document Type
- DoD Grant Award
- Publication Date
- Feb 11, 2016
- Source ID
- FA87501510117
Entities
People
- Kim Fook Lee
Organizations
- Northwestern University
- Rome Laboratory
- United States Air Force