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authorJaron Kent-Dobias <jaron@kent-dobias.com>2020-12-18 16:23:58 +0100
committerJaron Kent-Dobias <jaron@kent-dobias.com>2020-12-18 16:23:58 +0100
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Reassure the reader we are not done.arXiv.v2
-rw-r--r--bezout.tex7
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diff --git a/bezout.tex b/bezout.tex
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@@ -343,9 +343,10 @@ This is, to this order, precisely the Bézout bound, the maximum number of
solutions that $N$ equations of degree $p-1$ may have
\cite{Bezout_1779_Theorie}. That we saturate this bound is perhaps not
surprising, since the coefficients of our polynomial equations
-\eqref{eq:polynomial} are complex and have no symmetries. Analogous asymptotic
-scaling has been found for the number of pure Higgs states in supersymmetric
-quiver theories \cite{Manschot_2012_From}.
+\eqref{eq:polynomial} are complex and have no symmetries. Reaching Bézout in
+\eqref{eq:bezout} is not our main result, but it provides a good check.
+Analogous asymptotic scaling has been found for the number of pure Higgs states
+in supersymmetric quiver theories \cite{Manschot_2012_From}.
More insight is gained by looking at the count as a function of $a$, defined by
$\overline{\mathcal N}(\kappa,\epsilon,a)=e^{Nf(a)}$. In the large-$N$ limit,