Ian Jauslin
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Diffstat (limited to 'Carlen_Holzmann_Jauslin_Lieb_2020.tex')
-rw-r--r--Carlen_Holzmann_Jauslin_Lieb_2020.tex3
1 files changed, 2 insertions, 1 deletions
diff --git a/Carlen_Holzmann_Jauslin_Lieb_2020.tex b/Carlen_Holzmann_Jauslin_Lieb_2020.tex
index 67398df..93b8791 100644
--- a/Carlen_Holzmann_Jauslin_Lieb_2020.tex
+++ b/Carlen_Holzmann_Jauslin_Lieb_2020.tex
@@ -15,7 +15,7 @@
\begin{document}
-\title{A fresh look at a simplified approach to the Bose gas}
+\title{A simplified approach to the repulsive Bose gas from low to high densities and its numerical accuracy}
\author{Eric A. Carlen}
\affiliation{\it Department of Mathematics, Rutgers University}
@@ -483,6 +483,7 @@ For $\alpha=16$ this is even clearer, and one sees that the Medium Equation is m
The energy as a function of density for the potential $e^{-|\mathbf x|}$ (top) and $16e^{-|\mathbf x|}$ (bottom).
We compare the predictions of the Big, Medium and Simple Equations to a QMC simulation.
For comparison, we also plot the Lee-Huang-Yang (LHY) energy\-~(\ref{lhy}).
+ (All quantities plotted in this and the following figures are dimensionless.)
}
\label{fig:energy}
\end{figure}