We present a novel method for fabricating polymer waveguides containing various types of nanocrystals while preserving their active optical properties.
T HE electro-optic and photoelastic effects in crystals were first investigated by Pockels,1 who developed a phenomenological theory for these effects and measured the constants for a number of cry
We investigated temperature-dependent optical conductivity spectra of a Nd0.7Sr0.3MnO3 single crystal.
We describe techniques to obtain well aligned samples of the newly discovered A* phase sup 1, sup 2, which possesses a structure characteristic of both smectic and cholesteric liquid crystals.
We report pseudodielectric function, (epsilon), data for Al1As alloys of target compositions x=0.00 through 0.80 in steps of 0.10 grown by liquid phase epitaxy and measured by spectroellipsometry.
We have studied the reflectivity of twinned, c-axis oriented crystals in the a,b (CuO) plane as a function of T from room temperature to 4K and as a function of frequency from ~3meV to ~3eV.
Using linear response theory, we have derived the form of a spin fluctuation-induced e-h interaction in a semi-magnetic semiconductor, in terms of spin susceptibilities.
We have investigated the class of disubstituted polyacatylene (PDPA) such as pristine and doped with C-60, using both transient and steady state spectroscopies.
We investigated the luminescence properties of GaN nanowhiskers produced by photoelectrochemical (PEC) etching using a combination of photoluminescence (PL) and cathodoluminescence (CL) spectroscop
The optical properties of heat-treated polyparaphenylene (PPP) were investigated by means of Raman and photoluminescence (PL) spectroscopy.
