Single-Colloidal-Quantum-Dot Fluorescence Antibunching in Chiral Photonic Bandgap Hosts at Room Temperature

In this paper, we report experimental results of a novel SPS on demand based on a single CdSe QD suspended in a liquid crystal host self-assembled in a 1D chiral photonic bandgap structure. This structure provides not only spontaneous emission enhancement and a diminishing of the fluorescence lifeti...

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Bibliographic Details
Main Authors: Bissell, L. J., Shi, Z., Shin, H., Lukishova, S. G., White, S. M., Hahn, M. A., Boyd, R. W., Stroud, C. R., Krauss, T. D.
Format: Conference Proceeding
Language:English
Subjects:
Fluorescence
Liquid crystals
Optical losses
Photonic band gap
Photonic crystals
Polarization
Reflection
Refractive index
Spontaneous emission
Temperature
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Summary:In this paper, we report experimental results of a novel SPS on demand based on a single CdSe QD suspended in a liquid crystal host self-assembled in a 1D chiral photonic bandgap structure. This structure provides not only spontaneous emission enhancement and a diminishing of the fluorescence lifetime, but also circular polarization of definite handedness even for emitters without a dipole moment. 1D chiral photonic bandgap structures possess an advantage over conventional 1D photonic bandgap technologies. Because the refractive index n varies gradually in chiral structures rather than abruptly, there are no losses into the waveguide modes, which arise from total internal reflection at the border between two consecutive layers with different n. We report here for the first time fluorescence antibunching of a QD doped in a liquid crystal photonic bandgap material. Earlier we reported both fluorescence antibunching and deterministic polarization of dye fluorescence in aligned liquid crystal hosts.
DOI:10.1109/CLEOE-IQEC.2007.4386793