David Goorskey scite author profile

The concept, decoupling doping from nucleation and/or growth, allows us to dope nearly all nanocrystals in a given sample which is indicated by complete quenching of the host emission and bright emission from the dopants at characteristic wavelengths tunable in most parts of the visible window using a ZnSe host. In an extreme case, ZnSe coated MnSe nanocrystals (MnSe:ZnSe) emit similarly as commonly known doped nanocrystals. In comparison with CdSe nanocrystals, these alternative emitters not only are intrinsically less toxic but also show some unexpected and expected advantages: stable against thermal and environmental changes, zero reabsorption, and no Forster energy transfer. In addition to their applications to replace CdSe based nanocrystal emitters, the unique structure and properties of the doped nanocrystals are of interest for studying fundamental issues in the field.

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Enhanced Kerr Nonlinearity via Atomic Coherence in a Three-Level Atomic System

Wang

2001

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We measure the Kerr-nonlinear index of refraction of a three-level Lambda-type atomic system inside an optical ring cavity. The Kerr nonlinearity is modified and greatly enhanced near atomic resonant conditions for both probe and coupling beams. The Kerr nonlinear coefficient n(2) changes sign when the coupling beam frequency detuning switches sign, which can lead to interesting applications in optical devices such as all-optical switches.

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Polarization spectroscopy of single CdSe quantum rods

et al. 2001

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Cavity-linewidth narrowing by means of electromagnetically induced transparency

et al. 2000

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David Goorskey

An Alternative of CdSe Nanocrystal Emitters: Pure and Tunable Impurity Emissions in ZnSe Nanocrystals

Enhanced Kerr Nonlinearity via Atomic Coherence in a Three-Level Atomic System

Polarization spectroscopy of single CdSe quantum rods

Cavity-linewidth narrowing by means of electromagnetically induced transparency

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