89 |
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boundary between materials. |
90 |
|
|
91 |
|
\begin{figure} |
92 |
< |
\includegraphics[width=\linewidth]{VSS2} |
92 |
> |
\includegraphics[width=\linewidth]{figures/VSS} |
93 |
|
\caption{Schematics of periodic (left) and non-periodic (right) |
94 |
|
Velocity Shearing and Scaling RNEMD. A kinetic energy or momentum |
95 |
|
flux is applied from region B to region A. Thermal gradients are |
237 |
|
of rectangular slabs. A temperature profile along the $r$ coordinate is created by recording the average temperature of concentric spherical shells. |
238 |
|
|
239 |
|
\begin{figure} |
240 |
< |
\center{\includegraphics[width=7in]{figures/VSS}} |
240 |
> |
\center{\includegraphics[width=7in]{figures/npVSS2}} |
241 |
|
\caption{Schematics of periodic (left) and nonperiodic (right) Velocity Shearing and Scaling RNEMD. A kinetic energy or momentum flux is applied from region B to region A. Thermal gradients are depicted by a color gradient. Linear or angular velocity gradients are shown as arrows.} |
242 |
|
\label{fig:VSS} |
243 |
|
\end{figure} |
427 |
|
\begin{longtable}{ccc} |
428 |
|
\caption{Caption.} |
429 |
|
\\ \hline \hline |
430 |
< |
{Nanoparticle Radius} & {$\boldsymbol \lambda$}\\ |
431 |
< |
{\small(\AA)} & {\small(W m$^{-1}$ K$^{-1}$)}\\ \hline |
432 |
< |
20 & 59.66\\ |
433 |
< |
30 & 57.88\\ |
434 |
< |
40 & \\ |
435 |
< |
$\infty$ & \\ |
430 |
> |
{Nanoparticle Radius} & $J_r$ & {G}\\ |
431 |
> |
{\small(\AA)} & {\small(kcal fs$^{-1}$ \AA$^{-2}$)} & {\small(W m$^{-2}$ K$^{-1}$)}\\ \hline |
432 |
> |
20 & & 59.66 \\ |
433 |
> |
30 & & 57.88 \\ |
434 |
> |
40 & & 37.48 \\ |
435 |
> |
$\infty$ & & 30.2 \\ |
436 |
|
\hline \hline |
437 |
< |
\label{table:waterconductivity} |
437 |
> |
\label{table:interfacialconductance} |
438 |
|
\end{longtable} |
439 |
|
|
440 |
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |