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\svnid{$Id: 01-intro.tex 727 2024-05-06 20:00:54Z rousseau $}
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\section{The $\cC$-Albanese morphism in the presence of rational curves}
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\begin{thm}\label{thm:1}
  Let $X$ be a projective manifold and let $x \in X$ be any point. If $C \subset
  X$ is a rational curve, then the Albanese morphism of the $\cC$-pair $(X,0)$,
  \[
    \alb_x(X,0) : X \to \Alb_x(X,0),
  \]
  maps the curve $C$ to a point.
\end{thm}
\begin{proof}
  \todo{PENDING}
\end{proof}

\begin{itemize}
  \item \todo{Need example where Theorem~\ref{thm:1} fails if $X$ is singular.}
\end{itemize}

\begin{cor}\label{cor:2}
  Let $X$ be a projective manifold and let $x \in X$ be any point.  Let $\mu : X
  \to Y$ be a morphism to a normal projective variety.  If all fibres of $\mu$
  are rationally chain connected, then $\alb_x(X,0)$ factors via $\mu$,
  \[
    \begin{tikzcd}
      X \ar[r, "\mu"'] \ar[rr, bend left=15, "\alb_x(X{,}0)"] & Y \ar[r, "\exists!\:\beta"'] & \Alb_x(X,0).
    \end{tikzcd}
  \]
\end{cor}
  
\begin{rem}
  ---
  \begin{itemize}
    \item Corollary~\ref{cor:2} does not equip $Y$ with the structure of a $\cC$-pair.
    \item Corollary~\ref{cor:2} does not assume that $\mu$ is a morphism of $\cC$-pairs.
    \item Even if $\mu$ is a morphism of $\cC$-pairs, Corollary~\ref{cor:2}
    does not claim that $\beta$ is a morphism of $\cC$-pairs.
    \item Corollary~\ref{cor:2} neither gives a morphism between $\Alb_x(X,0)$
    and $\Alb_{\mu(x)}(Y,0)$ nor does it claim that these are isomorphic.
  \end{itemize}
\end{rem}

\begin{itemize}
  \item \todo{Kummer K3s are nice examples where the Albanese grows when we
  contract rational curves.}
  \item \todo{Want more examples to showcase all the things that can go wrong.}
  \item \todo{Corollary~\ref{cor:2} implies that the $\cC$-Albanese map factors
  via the MRC fibration of $X$, and via any map from $X$ to one of its minimal
  models.  This should be exploitable in geometrically meaningful situations.}
\end{itemize}
  
\todo{There are settings where the factorization of Corollary~\ref{cor:2} is a
factorization into morphisms of $\cC$-pairs.}

\begin{thm}
  Birational projective manifolds $X$ and $Y$ have canonically isomorphic
  $\cC$-Albanese varieties.
\end{thm}
\begin{proof}
  \todo{PENDING}
\end{proof}

\begin{thm}
  Let $X$ be a projective manifold and let $x \in X$ be any point.  Let $\mu : X
  \to Y$ be an MRC fibration of $X$, where $Y$ is again a projective manifold.
  Then, the $\cC$-pairs $\Alb_x(X,0)$ and $\Alb_{\mu(x)}(Y,0)$ are naturally
  isomorphic.
\end{thm}
\begin{proof}
  \todo{PENDING}
\end{proof}


\section{Examples}

\begin{itemize}
  \item \todo{Discuss the Stoppino-example: general type, simply-connected,
  augmented irregularity zero, but has a non-trivial $\cC$-Albanse.}
\end{itemize}


\section{The $\cC$-Albanese morphism for special manifolds}

\begin{itemize}
  \item \todo{Discuss special surfaces.}
  \item \todo{Figure out what we can say for special threefolds.}
\end{itemize}

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