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\begin{document}
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\begin{titlepage}

\bigskip
\hskip 3.7in{\vbox{\baselineskip12pt
%\hbox{hep-th/0105244}
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\bigskip\bigskip\bigskip\bigskip
\centerline{\large\bf Finite Temperature Closed Superstring Theory: Infrared Stability and a Minimum
Temperature}

\bigskip\bigskip
\bigskip\bigskip
\centerline{\bf Shyamoli Chaudhuri
\footnote{shyamoli@thphysed.org}
}
\centerline{214 North Allegheny St.}
\centerline{Bellefonte, PA 16823}
\date{\today}

\bigskip\bigskip
\begin{abstract}
Superseded and extended in hep-th/0208112.
\end{abstract}

\end{titlepage}

\section{Introduction}

\vskip 0.1in
This paper has been superseded by hep-th/0208112. The results are not incorrect,
but the derivations have been rewritten to clarify that thermal duality relations
arise naturally as a consequence of modular invariance in closed string gases. The
corresponding results for the type I open and closed string gas have also been
included to give a more unified picture of the statistical mechanics of fermionic
string gases, and of the phase transition to the long string phase.
\end{document}

