"Modular invariance in math and physics"의 두 판 사이의 차이

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==path integral in string theory==
 
==path integral in string theory==
  
* [[path integral and moduli space of Riemann surfaces]] :<math>Z=\sum_{g=0}^{\infty} g_{s}^{-\chi(\Sigma_{g})}Z_{g}=\sum_{g=0}^{\infty} g_{s}^{2g-2}Z_{g}=\frac{1}{g_{s}^2}Z_{0}+g_{s}^{0}Z_{1}+g_{s}^2Z_{2}+\cdots</math><br>
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* [[path integral and moduli space of Riemann surfaces]] :<math>Z=\sum_{g=0}^{\infty} g_{s}^{-\chi(\Sigma_{g})}Z_{g}=\sum_{g=0}^{\infty} g_{s}^{2g-2}Z_{g}=\frac{1}{g_{s}^2}Z_{0}+g_{s}^{0}Z_{1}+g_{s}^2Z_{2}+\cdots</math>
 
* <math>Z_{1}</math> is an integral over <math>M_1 = \mathbb{H}/SL(2,\mathbb{Z})</math> i.e. the fundamental domain.
 
* <math>Z_{1}</math> is an integral over <math>M_1 = \mathbb{H}/SL(2,\mathbb{Z})</math> i.e. the fundamental domain.
*  string theory (symmetries, modular group) has a natural covariant UV cutoff!<br>
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*  string theory (symmetries, modular group) has a natural covariant UV cutoff!
 
** compare with http://www.physics.thetangentbundle.net/wiki/Quantum_field_theory/Schwinger_proper_time_formalism
 
** compare with http://www.physics.thetangentbundle.net/wiki/Quantum_field_theory/Schwinger_proper_time_formalism
  

2020년 11월 16일 (월) 06:47 판

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path integral in string theory

 

 

 

circle method

 

 

 

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