Optically Excited Entangled States in Organic Molecules Illuminate the Dark

J Phys Chem Lett. 2013 Jun 20;4(12):2046-52. doi: 10.1021/jz400851d. Epub 2013 Jun 5.

Abstract

We utilize quantum entangled photons to carry out nonlinear optical spectroscopy in organic molecules with an extremely small number of photons. For the first time, fluorescence is reported as a result of entangled photon absorption in organic nonlinear optical molecules. Selectivity of the entangled photon absorption process is also observed and a theoretical model of this process is provided. Through these experiments and theoretical modeling it is found that while some molecules may not have strong classical nonlinear optical properties due to their excitation pathways; these same excitation pathways may enhance the entangled photon processes. It is found that the opposite is also true. Some materials with weak classical nonlinear optical effects may exhibit strong non-classical nonlinear optical effects. Our entangled photon fluorescence results provide the first steps in realizing and demonstrating the viability of entangled two-photon microscopy, remote sensing, and optical communications.

Keywords: entangled two-photon excited fluorescence; excitation pathway; nonlinear optical; remote sensing.