Add to ORKGIn this thesis I describe a number of studies to examine some high order effects of advanced trapping dynamics beyond the standard single gradient force optical trap. Our interests lay primarily on low symmetry particles, specifically on high refractive index, high aspect ratio nanowires. We examine higher order dynamics due to coupling between rotational and translational degrees of freedom when a single high aspect ratio nanowire is trapped. We also study the coupling of the trapping laser into the waveguiding modes of the trapped nanowire, as well as the coupling interactions between multiple trapped nanowires.On single optically trapped nanowires, we show calculations beyond the standard power spectral analysis to demonstrate the emerge...
Semiconducting nanowires, such as ZnO and Si, are used in the fields of nanophotonics and nanoelectr...
We measure, by photonic torque microscopy, the nonconservative rotational motion arising from the tr...
We study the forces generated by an electromagnetic field on two coupled gold nanowires at the vicin...
We investigate the dynamics of high-aspect-ratio nanowires trapped axially in a single gradient forc...
In this thesis I describe a number of novel techniques of combining dynamic optical tweezers with sp...
Controlling light at the nanoscale is a current research frontier, as advanced nanofabrication techn...
We report on the optical trapping characteristics of InP nanowires with dimensions of 30 (±6) nm in ...
Graduation date: 2008This dissertation concerns a broad range of unique phenomena related to the lig...
Understanding whether noble-metal nanostructures can be trapped optically and under what conditions ...
Axially resolved microphotoluminescence mapping of semiconductor nanowires held in an optical tweeze...
We study the optical force arising when isolated gold nanowire pairs and metamaterials with a gold n...
Over the last few years, the notion that links optical trapping with strong intensity of light (high...
Multiple scattering of light induces structured interactions, or optical binding forces, between col...
Silicon nanowires are held and manipulated in controlled optical traps based on counter-propagating ...
We study theoretically the optical forces acting on glass nanoplates introduced into hollow waveguid...
Semiconducting nanowires, such as ZnO and Si, are used in the fields of nanophotonics and nanoelectr...
We measure, by photonic torque microscopy, the nonconservative rotational motion arising from the tr...
We study the forces generated by an electromagnetic field on two coupled gold nanowires at the vicin...
We investigate the dynamics of high-aspect-ratio nanowires trapped axially in a single gradient forc...
In this thesis I describe a number of novel techniques of combining dynamic optical tweezers with sp...
Controlling light at the nanoscale is a current research frontier, as advanced nanofabrication techn...
We report on the optical trapping characteristics of InP nanowires with dimensions of 30 (±6) nm in ...
Graduation date: 2008This dissertation concerns a broad range of unique phenomena related to the lig...
Understanding whether noble-metal nanostructures can be trapped optically and under what conditions ...
Axially resolved microphotoluminescence mapping of semiconductor nanowires held in an optical tweeze...
We study the optical force arising when isolated gold nanowire pairs and metamaterials with a gold n...
Over the last few years, the notion that links optical trapping with strong intensity of light (high...
Multiple scattering of light induces structured interactions, or optical binding forces, between col...
Silicon nanowires are held and manipulated in controlled optical traps based on counter-propagating ...
We study theoretically the optical forces acting on glass nanoplates introduced into hollow waveguid...
Semiconducting nanowires, such as ZnO and Si, are used in the fields of nanophotonics and nanoelectr...
We measure, by photonic torque microscopy, the nonconservative rotational motion arising from the tr...
We study the forces generated by an electromagnetic field on two coupled gold nanowires at the vicin...