Bibliography

1

S. T. O'Connell and P. A. Thompson.
Molecular dynamics-continuum hybrid computations: A tool for studying complex fluid flow.
Phys. Rev., E 52:R5792, 1995.

2

R. Delgado-Buscalioni and P.V. Coveney.
Continuum-particle hybrid coupling for mass, momentum, and energy transfers in unsteady fluid flow.
Phys. Rev. E, 67:046704, 2003.

3

X. B. Nie, S.Y. Chen, W. N. E, and M.O. Robbins.
A continuum and molecular dynamics hybrid method for micro- and nano-fluid flow.
J. of Fluid Mech., 500:55, 2004.

4

T. Werder, J. H. Walther, and P. Koumoutsakos.
Hybrid atomistic-continuum method for the simulation of dense fluid flows.
J. of Comp. Phys., 205:373, 2005.

5

N. G. Hadjiconstantinou.
Hybrid atomistic-continuum formulations and the moving contact-line problem.
J. Comp. Phys., 154:245, 1999.

6

M. K. Borg, G. B. Macpherson, and J. M. Reese.
Controllers for imposing continuum-to-molecular boundary conditions in arbitrary fluid flow geometries.
Molec. Sims., 36:745, 2010.

7

J. Li, D. Liao, and S. Yip.
Coupling continuum to molecular-dynamics simulation: Reflecting particle method and the field estimator.
Phys. Rev. E, 57:7259, 1997.

8

W. Ren.
Analytical and numerical study of coupled atomistic-continuum methods for fluids.
J. of Comp. Phys., 227:1353, 2007.

9

E. G. Flekkøy, G. Wagner, and J. Feder.
Hybrid model for combined particle and continuum dynamics.
Europhys. Lett., 52:271, 2000.