Difference between revisions of "Problems on Deligne-Mumford spaces"

Revision as of 13:52, 26 May 2017

poset underlying associahedra

As described in Deligne-Mumford space, for any $d\geq 1$ , $\overline {\mathcal {M}}_{{d+1}}$ is a $(d-2)$ -dimensional manifold with boundary and corners which parametrizes nodal trees of disks with $d+1$ marked points, one of them distinguished (we think of the $d$ undistinguished resp. 1 distinguished marked points as "input" resp. "output" marked points). As shown in [Auroux, Ex. 2.6], $\overline {\mathcal {M}}_{4}$ is homeomorphic to a closed interval, with one endpoint corresponding to a collision of the first two inputs $z_{1},z_{2}$ and the other corresponding to a collision of $z_{2},z_{3}$ . Work out which polygon/polyhedron $\overline {\mathcal {M}}_{5},\overline {\mathcal {M}}_{6}$ are equal to.

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 == poset underlying associahedra ==
-blah blah
+As described in [[Deligne-Mumford space]], for any <math>d\geq 1</math>, <math>\overline\mathcal{M}_{d+1}</math> is a <math>(d-2)</math>-dimensional manifold with boundary and corners which parametrizes nodal trees of disks with <math>d+1</math> marked points, one of them distinguished (we think of the <math>d</math> undistinguished resp. 1 distinguished marked points as "input" resp. "output" marked points).
+As shown in [Auroux, Ex. 2.6], <math>\overline\mathcal{M}_4</math> is homeomorphic to a closed interval, with one endpoint corresponding to a collision of the first two inputs <math>z_1, z_2</math> and the other corresponding to a collision of <math>z_2, z_3</math>.
-== test ==
+Work out which polygon/polyhedron <math>\overline\mathcal{M}_5, \overline\mathcal{M}_6</math> are equal to.

Difference between revisions of "Problems on Deligne-Mumford spaces"

Revision as of 13:52, 26 May 2017

poset underlying associahedra

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