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-rw-r--r--bezout.tex11
1 files changed, 5 insertions, 6 deletions
diff --git a/bezout.tex b/bezout.tex
index 4c4ff46..7da708b 100644
--- a/bezout.tex
+++ b/bezout.tex
@@ -92,8 +92,7 @@ not possible. The same idea may be implemented by performing diffusion in the
$J$'s, and following the roots, in complete analogy with Dyson's stochastic
dynamics.
-This study also provides a complement to the work on the distribution of zeroes
-of random polynomials \cite{Bogomolny_1992_Distribution}.
+
For our model the constraint we choose $z^2=N$,
@@ -113,11 +112,11 @@ Critical points are given by the set of equations:
\begin{equation}
\frac{c_p}{(p-1)!}\sum_{ i, i_2\cdots i_p}^NJ_{i, i_2\cdots i_p}z_{i_2}\cdots z_{i_p} = \epsilon z_i
\end{equation}
-which for given $\epsilon$ are a set pf $N$ equations (plus the constraint) of degree $p-1$.
+which for given $\epsilon$ are a set of $N$ equations of degree $p-1$, to which one must add the constraint condition.
+In this sense this study also provides a complement to the work on the distribution of zeroes
+of random polynomials \cite{Bogomolny_1992_Distribution}, which are for $N=1$ and $p \rightarrow \infty$.
-$
-Since $H$ is holomorphic, a point is a critical point of its real part if and
-only if it is also a critical point of its imaginary part. The number of
+Since $H$ is holomorphic, a critical point of $\Re H_0$ is also a critical point of $\Im H_0$. The number of
critical points of $H$ is therefore the number of critical points of
$\mathop{\mathrm{Re}}H$. Writing $z=x+iy$, $\mathop{\mathrm{Re}}H$ can be
interpreted as a real function of $2N$ real variables. The number of critical