@article{sharpe_merrill_petti_bourham_gilligan_2001, title={Modeling of particulate production in the SIRENS plasma disruption simulator}, volume={290}, ISSN={["0022-3115"]}, DOI={10.1016/S0022-3115(00)00550-X}, abstractNote={Modeling of the complex interplay among plasma physics, fluid mechanics, and aerosol dynamics is critical to providing a detailed understanding of the mechanisms responsible for particulate production from plasma–surface interaction in fusion devices. Plasma/fluid and aerosol models developed for analysis of disruption simulation experiments in the SIRENS high heat flux facility integrate the necessary mechanisms of plasma–material interaction, plasma and fluid flow, and particulate generation and transport. The model successfully predicts the size distribution of primary particulate generated in SIRENS disruption-induced material mobilization experiments.}, number={2001 Mar.}, journal={JOURNAL OF NUCLEAR MATERIALS}, author={Sharpe, JP and Merrill, BJ and Petti, DA and Bourham, MA and Gilligan, JG}, year={2001}, month={Mar}, pages={1128–1133} }
 @article{sharpe_bourham_gilligan_1998, title={Generation and characterization of carbon particulate in disruption simulations}, volume={34}, ISSN={["0748-1896"]}, DOI={10.13182/fst98-a11963685}, abstractNote={The SIRENS high heat flux facility at NCSU has been used to generate particulate representative of material mobilized during a hard disruption in a fusion reactor. The electrothermal (ET) plasma so...}, number={3}, journal={FUSION TECHNOLOGY}, author={Sharpe, JP and Bourham, M and Gilligan, JG}, year={1998}, month={Nov}, pages={634–639} }
 @inbook{sharpe_bourham_gilligan_1997, title={Experimental investigation of disruption-induced aerosol mobilization in accident scenarios of ITER}, volume={1}, booktitle={17th IEEE/NPSS Symposium Fusion Engineering: San Diego, California, October 6-10, 1997}, publisher={Piscataway, NJ: IEEE}, author={Sharpe, J. P. and Bourham, M. A. and Gilligan, J. G.}, year={1997}, pages={153–156} }