Research

Optical Materials

Gradient Index Materials

Professor Duncan Moore

Gradient-index (GRIN) materials have an index of refraction that varies as a function of position. Research in our group focuses on glass and plastic GRIN lenses to be used in optical systems. These elements are useful to a lens designer since they provide additional degrees of freedom, and thus can improve system performance. Research topics currently pursued range from the beginning of the process (fabricating the GRIN materials) to end applications (designing and tolerancing the optical systems).

Nanocomposite Materials

Professor Robert Boyd

Professor Boyd is interested in the development of nonlinear optical materials, especially nanocomposite materials with enhanced response as a consequence of local field effects.

Nanoscale Semiconductor Materials

Professor Todd Krauss

The Krauss group studies the fundamental optical properties of materials with a size in between individual molecules and macroscopic objects. These nanometer scale materials have physical characteristics that are strong functions of their size and shape, with properties that can be easily manipulated to address a given application. Currently the group is interested in the interaction of light with carbon nanotubes and semiconductor nanocrystal quantum dots. A variety of experimental approaches are used including single molecule microscopy and spectroscopy and ultrafast optical spectroscopy, either alone or combined with atomic force microscopy. These experiments probe at a fundamental level the nature of the optically excited state in these materials and excited state dynamics. Of particular interest are materials that are optically active in the near infrared at wavelengths relevant to optical communications or biological imaging. Applications for these materials are also being pursued in areas of nonlinear optics, renewable energy, and optoelectronics.

Semiconductor Epitaxial Structures

Professor Gary Wicks

Molecular beam epitaxy is used to construct crystal structures, e.g. quantum wells and quantum dots. These types of structures are engineered for specific optical properties such as particular emission wavelengths or enhanced absorptions efficiencies.