Interdisciplinary Applied Mathematics

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Davies, J. T. and Rideal, E. K. (1966). Interfacial Phenomena. Academic Press Inc.: London.

Davis, J. M. and Troian, S. M. (2003). Influence of attractive van der Waals interactions on the optimal excitations in thermocapilary-driven spreading. Phys. Rev. E, 67:016308-1 016308-9.

De Leeuw, S. W., Perram, J. W., and Smith, E. R. (1980). Simulation of electrostatic systems in periodic boundary conditions. I. Lattice sums and dielectric constant. Proc. R. Soc. Lond., A373:27-56.

Deane, A., Kevrekidis, I. G., Karniadakis, G. E., and Orszag, S. A. (1991). Lowdimensional models for complex geometry flows: Application to grooved channels and circular cylinders. Phys. Fluids, 3(10):2337.

Debye, P. and Cleland, R. L. (1959). Flow of liquid hydrocarbons in porous Vycor. J. Appl. Phys., 30:843-849.

DeGasperis, G., Yang, J., Becker, F. F., and Gascoyne, P. R. (1999). Microfluidic cell separation by two-dimensional dielectrophoresis. Biomed. Microdevices, 2:1:41-49.

deGennes, P. (1985). Wetting: Statics and dynamics. Rev. Mod. Phys., 57:827863.

deGennes, P. (2002). On fluid/wall slippage. Langmuir, 18:3413-3414.

deGennes, P., Brochard-Wyart, F., and Quere, D. (2004). Capillarity and Wetting Phenomena. Springer, New York.

Deissler, R. G. (1964). An analysis of second-order slip flow and temperature jump boundary conditions for rarefied gases. Int. J. Heat Mass Transfer, 7:681-694.

Dekker, C. (1999). Carbon nanotubes as molecular quantum wires. Physics Today, 52(5):22-28.

Dent, G. L. (1999). Aspects of particle sedimentation in dilute flows at finite Reynolds numbers. PhD thesis, Brown University.

Derbunovich, G. I., Zamskaya, A. S., Repik, Y. U., and Sosedko, Y. P. (1998). Hydraulic drag on perforated plates. Fluid Mech.-Soviet Research, 13:111116.

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