High-performance scientific computing in a modern age uses parallel techniques at a scale of hundreds of thousands of processors. These large-scale applications have I/O system workloads that are primarily driven by small, sparse I/O operations. While parallel file systems have provided application developers with scalable peak I/O bandwidth for large,...
This dissertation explores a seventy-year period of community growth and activism among African Americans in nineteenth-century Iowa, showing how citizenship was defined, contested, expanded and confined. Antebellum black migrants lived on the margins of a hostile society and struggled for equal citizenship using their labor, their community institutions, the legal...
The three empirical analyses in this dissertation study the effects of workers' compensation benefits on individual behavior and household consumption as well as the impacts of workplace injuries and illnesses on economic outcomes for affected workers.
In Chapter 2, I study incentive effects of state workers' compensation programs, exploiting substantial...
Leakage currents limit the operation of high performance type II InAs/GaSb superlattice photodiode technology. Surface leakage current becomes a dominant, limiting factor to the ideal performance of a photodiode, especially at the scale of a focal plane array pixel (< 25 µm), and must be addressed. A reduction of the...
During movement, the dendrites of spinal motoneurons receive steady excitatory and inhibitory synaptic input from supraspinal sources, interneurons, and sensory afferents. Motoneurons also have dendritic voltage sensitive ion channels. Most notable is a persistent inward current (PIC), which can enhance the amplitude of synaptic input by several fold. PICs are...
Filopodia play a central role in proper cell navigation; they extend from the cell surface and scan the local environment to guide the cell to its proper destination. These dynamic events require precise mechanisms for the turnover of key molecules which determine the morphology of filopodia. As of yet, such...
Chapter 1 describes the homopolymerization of styrene and the copolymerization of ethylene and styrenic comonomers mediated by the single-site bimetallic "constrained geometry catalysts" (CGCs), (µ-CH2CH2-3,3'){(η5-indenyl)[1-Me2Si(tBuN)](TiMe2)}2 [EBICGC(TiMe2)2; Ti2], (µ-CH2CH2-3,3'){(η5-indenyl)[1-Me2Si(tBuN)](ZrMe2)}2 [EBICGC(ZrMe2)2; Zr2], (µ-CH2-3,3'){(η5-indenyl)[1-Me2Si(tBuN)](TiMe2)}2 [MBICGC(TiMe2)2; C1-Ti2], and (µ-CH2-3,3'){(η5-indenyl)[1-Me2Si(tBuN)](ZrMe2)}2 [MBICGC(ZrMe2)2; C1-Zr2], in combination with the borate activator/cocatalyst Ph3C+B(C6F5)4- (B1). Under identical styrene homopolymerization conditions,...
Influenza virus assembly and budding is a complex process involving the organization of viral membrane proteins on the cell surface, incorporation of the segmented RNA genome, and formation of viral particles that must bud from the cell by pinching off from the plasma membrane. Interactions between the soluble influenza virus...
Metal nanoparticles in polymeric matrices are of particular scientific interest due to their useful ability to self-assemble into complex nanocomposites. Recent examples involve using ultrathin diblock copolymers coupled with metal nanoparticles in the fabrication of novel electronic, magnetic and photonic devices. As this ordering process takes place far from equilibrium...
Short-range stiffness (SRS) of a skeletal muscle describes the muscle's capability to resist external perturbations before the nervous system can intervene. Knowledge of the SRS of individual muscles is critical in understanding their contributions to single joint stiffness and whole limb stability. While the dependence of SRS on muscle force...