Rational Number Space is not Locally Compact Hausdorff Space

Theorem
Let $\struct {\Q, \tau_d}$ be the rational number space under the Euclidean topology $\tau_d$.

Then $\struct {\Q, \tau_d}$ is not a locally compact Hausdorff Space.

Proof
Let $x \in \Q$.

Let $N \subseteq \Q$ be an open neighborhood of $x$.

$N$ is compact.

By Compact Set of Rational Numbers is Nowhere Dense, $N$ is nowhere dense.

Thus $N^-$ contains no open set of $\Q$ which is non-empty.

But $N$ is a non-empty open set of $\Q$.

By Set is Subset of its Topological Closure, $N \subseteq N^-$.

This is a contradiction.

Hence $\struct {\Q, \tau_d}$ is not a locally compact Hausdorff Space.