수학:범함수

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수학:범함수 [2020/01/09 17:23] – [감쇠 오일러 방정식의 분석] admin수학:범함수 [2020/01/10 11:31] – [두 번째 항] admin
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 - \int \rho(\vec{r}') \int^{\rho(\vec{r}')} \frac{P(\rho')}{\rho'^2} d\rho' d\vec{r}' - \int \rho(\vec{r}') \int^{\rho(\vec{r}')} \frac{P(\rho')}{\rho'^2} d\rho' d\vec{r}'
 \right\}\\ \right\}\\
-&=&+&\approx&
 \lim_{\epsilon \to 0} \frac{1}{\epsilon} \left\{ \int \left[ \rho(\vec{r}') + \epsilon \delta (\vec{r}'-\vec{r}) \right] \lim_{\epsilon \to 0} \frac{1}{\epsilon} \left\{ \int \left[ \rho(\vec{r}') + \epsilon \delta (\vec{r}'-\vec{r}) \right]
 \left[ \int^{\rho(\vec{r}')} \frac{P(\rho')}{\rho'^2} d\rho' \left[ \int^{\rho(\vec{r}')} \frac{P(\rho')}{\rho'^2} d\rho'
Line 75: Line 75:
 \end{eqnarray*} \end{eqnarray*}
  
 +====두 번째 항====
 +\begin{eqnarray*}
 +\frac{\delta}{\delta \rho(\vec{r})} \int \rho(\vec{r}') \Phi(\vec{r}') d\vec{r}'
 +&=& \frac{\delta}{\delta \rho(\vec{r})} \int \rho(\vec{r}') \int \rho(\vec{r}'') U(|\vec{r}'-\vec{r}''|) d\vec{r}'' d\vec{r}'\\
 +&=& \lim_{\epsilon\to 0} \frac{1}{\epsilon} \left\{ \int \left[ \rho(\vec{r}') + \epsilon \delta(\vec{r}-\vec{r}') \right]
 +\left[ \rho(\vec{r}'') + \epsilon \delta(\vec{r}-\vec{r}'') \right] U(|\vec{r}'-\vec{r}''|) d\vec{r}'' d\vec{r}'
 +- \int \rho(\vec{r}') \int \rho(\vec{r}'') U(|\vec{r}'-\vec{r}''|) d\vec{r}'' d\vec{r}'
 +\right\}\\
 +&\approx&
 +\int \rho(\vec{r}') \delta(\vec{r}-\vec{r}'') U(|\vec{r}'-\vec{r}''|) d\vec{r}'' d\vec{r}'
 ++\int \rho(\vec{r}'') \delta(\vec{r}-\vec{r}') U(|\vec{r}'-\vec{r}''|) d\vec{r}'' d\vec{r}'\\
 +&=& \int \rho(\vec{r}') U(|\vec{r}'-\vec{r}|) d\vec{r}' + \int \rho(\vec{r}'') U(|\vec{r}''-\vec{r}|) d\vec{r}''\\
 +&=& 2\Phi(\vec{r})
 +\end{eqnarray*}
 +
 +====세 번째 항====
 +이 계산이 가장 간단하다.
 +\begin{eqnarray*}
 +\frac{\delta}{\delta \rho(\vec{r})} \int \rho(\vec{r}') \frac{|\vec{u}(\vec{r}')|^2}{2} d\vec{r}' &=&
 +\lim_{\epsilon\to 0} \frac{1}{\epsilon} \left\{ \int \left[ \rho(\vec{r}') + \epsilon \delta (\vec{r}-\vec{r}') \right] \frac{|\vec{u}(\vec{r}')|^2}{2} d\vec{r}'
 +- \int \rho(\vec{r}') \frac{|\vec{u}(\vec{r}')|^2}{2} d\vec{r}'\right\}\\
 +&=&
 +\int \delta (\vec{r}-\vec{r}') \frac{|\vec{u}(\vec{r}')|^2}{2} d\vec{r}'\\
 +&=& \frac{|\vec{u}(\vec{r})|^2}{2}
 +\end{eqnarray*}
 ======참고 문헌====== ======참고 문헌======
   * T. Lancaster and S. J. Blundell, //Quantum Field Theory for the Gited Amateur// (Oxford Univerty Press, 2014).   * T. Lancaster and S. J. Blundell, //Quantum Field Theory for the Gited Amateur// (Oxford Univerty Press, 2014).
   * P. H. Chavanis, Eur. Phys. J. B 62, 179 (2008) [[doi:10.1140/epjb/e2008-00142-9|(link)]].   * P. H. Chavanis, Eur. Phys. J. B 62, 179 (2008) [[doi:10.1140/epjb/e2008-00142-9|(link)]].
  
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