Lemma 87.5.10. Let $\varphi : A \to B$ be a continuous homomorphism of linearly topologized rings. Assume
$\varphi $ is taut and has dense image,
$A$ is complete and has a countable fundamental system of open ideals, and
$B$ is separated.
Then $\varphi $ is surjective and open, $B$ is complete, and $B = A/K$ for some closed ideal $K \subset A$.
Proof. By the open mapping lemma (More on Algebra, Lemma 15.36.5) combined with tautness of $\varphi $, we see the map $\varphi $ is open. Since the image of $\varphi $ is dense, we see that $\varphi $ is surjective. The kernel $K$ of $\varphi $ is closed as $\varphi $ is continuous. It follows that $B = A/K$ is complete, see for example Lemma 87.4.4. $\square$
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