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author | kurchan.jorge <kurchan.jorge@gmail.com> | 2020-12-08 10:34:32 +0000 |
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committer | overleaf <overleaf@localhost> | 2020-12-08 10:34:46 +0000 |
commit | 3bfcc79839e9311f9ca8d1ffac439922c542be86 (patch) | |
tree | 0dabec320059cc911847b4091bc8fddbf7111c3a | |
parent | e2084b32773fb240239e70c28956fff9ee370f14 (diff) | |
download | PRR_3_023064-3bfcc79839e9311f9ca8d1ffac439922c542be86.tar.gz PRR_3_023064-3bfcc79839e9311f9ca8d1ffac439922c542be86.tar.bz2 PRR_3_023064-3bfcc79839e9311f9ca8d1ffac439922c542be86.zip |
Update on Overleaf.
-rw-r--r-- | bezout.tex | 4 |
1 files changed, 2 insertions, 2 deletions
@@ -213,12 +213,12 @@ for $\delta=\kappa a^{-(p-2)}$. Another instrument we have to study this problem is to compute the following partition function: -\begin{equation} +\begin{eqnarray} Z= \int \Pi_i dx_i dy_i \; e^{-\beta_{R} \Re H_0 -\beta_I \Im H_0} \delta(\sum_i z_i^2-N) \delta\left(\sum_i y_i^2 -N \frac{a-1}{2}\right) \end{equation} The energy $\Re H_0, \Im H_0$ are in a one-to one relation with the temperatures $\beta_R,\beta_I$. The entropy $S(a,H_0) = \ln Z+ +\beta_{R} \langle \Re H_0 \rangle +\beta_I \langle \Im H_0\rangle$ -is the logarithm of the number of configurations of a given +is the logarithm of the number of configurations of a given $(a,H_0)$. } \bibliographystyle{apsrev4-2} |