Regularized moduli spaces

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table of contents

WORK IN PROGRESS

Given the moduli spaces of pseudoholomorphic polygons \overline {\mathcal {M}}(x_{0};x_{1},\ldots ,x_{d}) for each tuple of Lagrangians L_{0},\ldots ,L_{d}\subset M, generators x_{0}\in {\text{Crit}}(L_{0},L_{d}),x_{1}\in {\text{Crit}}(L_{0},L_{1}),\ldots ,x_{d}\in {\text{Crit}}(L_{{d-1}},L_{d}), and a fixed compatible almost complex structure J,


talk about Fredholm index \overline {\mathcal {M}}^{k}(\ldots )=\{b\in {\mathcal {M}}(\ldots )\,|\,IND...=k\}


we need to explain how to obtain regularizations \overline {\mathcal {M}}^{k}(x_{0};x_{1},\ldots ,x_{d};\nu ) for expected dimensions k=0,1 by a choice of perturbations \nu . Moreover, we need to choose these perturbations coherently to ensure that the boundary of each 1-dimensional part is given by Cartesian products of 0-dimensional parts,

\partial \overline {\mathcal {M}}^{1}(x_{0};x_{1},\ldots ,x_{d};\nu )=\bigsqcup _{{m,n\geq 0}}\bigsqcup _{{y\in {\text{Crit}}(L_{n},L_{{m+n}})}}\overline {\mathcal {M}}^{0}(y;\underline {x}';\nu )\times \overline {\mathcal {M}}^{0}(x_{0};\underline {x},y,\underline {x}'';\nu ).




Finally, we need to check that for each pair (b,b')\in \overline {\mathcal {M}}^{0}(x_{0};\underline {x},y,\underline {x}'';\nu )\times \overline {\mathcal {M}}^{0}(y;\underline {x}';\nu ), when considered as boundary point (b,b')\in \partial \overline {\mathcal {M}}^{1}(x_{0};x_{1},\ldots ,x_{d};\nu ), has symplectic area \omega ((b,b'))=\omega (b)+\omega (b') and weight function {\text{w}}((b,b'))=(-1)^{{\|\underline x\|}}{\text{w}}(b){\text{w}}(b').


Analysis TODO: 

when degenerating polygons to create a strip with L_{i}=L_{j} boundary conditions, will need to transfer from Morse-Bott breaking to boundary node
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