Interdisciplinary Applied Mathematics

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Pfahler, J. N., Harley, J. C., Bau, H. H., and Zemel, J. N. (1991). Gas and liquid flow in small channels. ASME, 32:49-59.


Pham-van-Diep, G., Keeley, P., Muntz, E. P., and Weaver, D. (1995). A micromechanical Knudsen compressor. In Harvey, J. and Lord, G., editors, Proceedings of the Ninenteenth International Symposium on Rarefied Gas Dynamics, pages 715-721, Oxford University Press, Oxford U.K.


Phan, A. V., Gray, L. J., Kaplan, T., and Phan, T. N. (2002). The boundary contour method for two-dimensional Stokes flow and incompressible elastic materials. Comp. Mech., 28:425-433.


Philip, J. R. (1972). Flows satisfying mixed no-slip and no-shear conditions. J. Appl. Math. Phys., 23:353-372.


Piekos, E. S. and Breuer, K. (1995). DSMC modeling of micromechanical devices. In AIAA Thermophysics Conference June 19-22 1995, San Diego, CA, AIAA 95-2089.


Pit, R., Hervet, H., and Leger, L. (2000). Direct experimental evidence of slip at hexadecane: Solid interfaces. Phys. Rev. Lett., 85(5):980-983.


Pivkin, I. (2005). Continum and Atomistic Methods for Biological Flows. PhD thesis, Brown University.


Pohl, H. A. (1978). Dielectrophoresis. Cambridge University Press, Cambridge.


Poiseuille, J. M. L. (1846). Experimental investigations upon the flow of liquids in tubes of very small diameters. Sciences Mathdmatiques et Physiques, 9:433-545.


Polard, W. G. and Present, R. D. (April 1948). On gaseous self-diffusion in long capillary tubes. Phys. Rev., 73 (7):762-774.


Polson, N. A. and Hayes, M. A. (2000). Electroosmotic flow control of fluids on a capillary electrophoresis microdevice using an applied external voltage. Anal. Chem., 72(5):1088-1092.

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