Items where Author is "Spencer, T. J."

ORIAKU, C. I., SPENCER, T. J. and PEREIRA, Mauro (2017). Anisotropic Medium Approach for the Optical Nonlinearities of Dilute Nitride Superlattices. In: THz for CBRN and Explosives Detection and Diagnosis. NATO Science for Peace and Security Series B: Physics and Biophysics . Springer, 113-120. (In Press) [Book Section]

HALLIDAY, I., ATHERTON, M., CARE, C., COLLINS, M. W., EVANS, D., EVANS, P. C., HOSE, D. R., KHIR, A. W., KÖNIG, C. S., KRAMS, R., LISHCHUK, S. and SPENCER, T. J. (2011). Multi-scale interaction of particulate flow and the artery wall. Medical Engineering and Physics, 33 (7), 840-848. [Article]

SPENCER, T. J., CARE, C. M., AMOS, R. M. and JONES, J. C. (2010). Zenithal bistable device: comparison of modeling and experiment. Physical Review E - Statistical, Nonlinear, and Soft Matter Physics, 82 (2). [Article]

HALLIDAY, I., SPENCER, T. J. and CARE, C. M. (2009). Validation of multicomponent lattice Boltzmann equation simulations using theoretical calculations of immiscible drop shape. Physical review E. Statistical, nonlinear and soft matter physics, 79 (1). [Article]

SPENCER, T. J. and CARE, C. M. (2006). Lattice boltzmann scheme for modeling liquid crystal dynamics: Zenithal bistable device in the presence of defect motion. Physical review E, 74 (6), 061708. [Article]

DUPIN, M. M., SPENCER, T. J., HALLIDAY, I. and CARE, C. M. (2004). A many-component lattice boltzmann equation simulation for transport of deformable particles. Philosophical transactions of the royal society of london series A-mathematical physical and engineering sciences, 362 (1822), 1885-1914. [Article]