"Finite size effect"의 두 판 사이의 차이

2010년 5월 25일 (화) 16:52 판

Casimir effect in QED is one example of finite size effect
the stress on the bounding surfaces when quantum field is confined to finite volume of space
type of boundaries
- real material media
- interface between two different phases of the vacuum of a field theory such as QCD, in which case colored field may only exist in the interior region
- topology of space
the boundaries restrict the modes of the quantum fields
give rise to measurable and important forces

zero-point energy in the presence of the boundaries
- sum over all modes
- any kind of constraint or boudary conditions on the the zero-point modes of the quantum fields in question, including backgrounds such as gravity
- In a model without boundary conditions, the Hamiltonian value associated wih the vacuum or ground state, called zero-point energy, is usually discarded because, despite being infinite, may be reabsorbed in a suitable redefinition of the energy origin
- there are several ways to put such an adjustment into practice, normal ordering being oneof the most popular
Green's functions method
- represents the vacuum expectation value of the produc of fields

transformaion
\(z \to w=\frac{L}{2\pi}\ln z\)
maps the entire plane onto a strip of width L
Schwarzian derivative
\(\frac{1}{2z^2}\)
energy momentum tensor changes
\(T_{cyl}(w)=(\frac{2\pi}{L})^2\{T_{pl}(z)z^2-\frac{c}{24}\}\)
\(L_0 \to L_0-c/24\)
the central charge emerges
central charge is proportional to the Casimir energy, the change in the vacuum energy density brought about by the periodicity condition on the cylinder

\(<T_{cyl}(w)>=-\frac{c\pi^2}{6L^2}\)

formula
\(F_L=f_{0}L-\frac{c\pi}{6L}\)
where \(f_{0}\) is the free energy per unit area in the thermodynamic \(L\to\infty\) limit

Conformal invariance, the central charge, and universal finite-size amplitudes at criticality H. W. J. Blöte, J. Cardy and M. P. Nightingale, Phys. Rev. Lett. 56, 742–745 (1986)
Conformal invariance, the central charge, and universal finite-size amplitudes at criticality

@@ 36번째 줄: / 36번째 줄: @@
 *   <br>
-*  transformaion<br><math>z \to w=\frac{L}{2\pi}\ln z</math><br>
+* strip geometry
+*  transformaion<br><math>z \to w=\frac{L}{2\pi}\ln z</math><br> maps the entire plane onto a strip of width L<br>
 *  Schwarzian derivative<br><math>\frac{1}{2z^2}</math><br>
 *  energy momentum tensor changes<br><math>T_{cyl}(w)=(\frac{2\pi}{L})^2\{T_{pl}(z)z^2-\frac{c}{24}\}</math><br><math>L_0 \to L_0-c/24</math><br>
@@ 89번째 줄: / 91번째 줄: @@
-<h5 style="line-height: 3.428em; margin: 0px; color: rgb(34, 61, 103); font-family: 'malgun gothic',dotum,gulim,sans-serif; font-size: 1.166em; background-position: 0px 100%;">참고할만한 자료</h5>
+<h5 style="line-height: 3.428em; margin: 0px; color: rgb(34, 61, 103); font-family: 'malgun gothic',dotum,gulim,sans-serif; font-size: 1.166em; background-position: 0px 100%;">encyclopedia</h5>
 * [http://ko.wikipedia.org/wiki/%EC%B9%B4%EC%8B%9C%EB%AF%B8%EB%A5%B4%ED%9A%A8%EA%B3%BC http://ko.wikipedia.org/wiki/카시미르효과]
@@ 103번째 줄: / 105번째 줄: @@
 <h5>articles</h5>
+* Conformal invariance, the central charge, and universal finite-size amplitudes at criticality H. W. J. Blöte, J. Cardy and M. P. Nightingale, Phys. Rev. Lett. 56, 742–745 (1986)
 * [http://prl.aps.org/abstract/PRL/v56/i7/p742_1 Conformal invariance, the central charge, and universal finite-size amplitudes at criticality]