The study of the moduli space plays an important role in classical enumerative geometry and its interaction with string theory in physics. Given X=[P1/Zr] and let x' = ([0]a , [∞]b) the 2-tuple of twisted sectors ...The study of the moduli space plays an important role in classical enumerative geometry and its interaction with string theory in physics. Given X=[P1/Zr] and let x' = ([0]a , [∞]b) the 2-tuple of twisted sectors on X , we construct in this paper two different compactifications of the moduli space M0,2(X, d[P1/Zr], x'): Nonlinear Sigma Model Mx'd and Linear Sigma Model Nx'd . Relations between Mx'd and Nx'd are studied and a new gluing recursive relation on Nx'd is derived from Mx'd due to virtual localization formula.展开更多
基金supported by Specialized Research Fund for the Doctoral Program of Higher Education (Grant No. 20100181110071)National Natural Science Foundation of China (Grant No. 11071176),supported by National Natural Science Foundation of China (Grant Nos. 11071173 and 11221101)Hundred Talents Program for Young Teachers (Grant No. SWJTU12BR028)
文摘The study of the moduli space plays an important role in classical enumerative geometry and its interaction with string theory in physics. Given X=[P1/Zr] and let x' = ([0]a , [∞]b) the 2-tuple of twisted sectors on X , we construct in this paper two different compactifications of the moduli space M0,2(X, d[P1/Zr], x'): Nonlinear Sigma Model Mx'd and Linear Sigma Model Nx'd . Relations between Mx'd and Nx'd are studied and a new gluing recursive relation on Nx'd is derived from Mx'd due to virtual localization formula.
