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Subcritical

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manifolds

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and

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algebraic

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structures

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In

...

the

...

morning

...

we

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will

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go

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through

...

the

...

computation

...

of

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symplectic

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cohomology

...

for

...

affine

...

space.

...

Using

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Cieliebak's

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result

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that

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subcritical

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Weinstein

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manifolds

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split,

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we'll

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obtain

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a

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computation

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for

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this

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class

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of

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manifolds.

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1. Compute

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1. the

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1. symplectic

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1. cohomology

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1. of

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1. the ball following the outline in Section (3f)

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1. of

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1. [Seidel

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1. ].

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1. The

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1. easiest

...

1. way

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1. to

...

1. do

...

1. this

...

1. is

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1. to

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1. follow

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1. the

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1. second

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1. approach,

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1. and

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1. compute

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1. the

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1. Conley-Zehnder

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1. index

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1. of

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1. the

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1. unique

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1. time-1

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1. Hamiltonian

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1. orbit

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1. of

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1. the

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1. function

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1. Latex

...

1. $\tau |z|^2$

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1.  when  

   Latex
   $\tau$

...

1.  is not a multiple of 

   Latex
   $ \pi$

...

1. .
2. Introduce the notion of a Weinstein manifold, and that of a subcritical Weinstein manifold. Explain Cieliebak's splitting result for subcritical manifolds (see Theorem 14.16 of [Cieliebak-Eliashberg]).
3. Explain the statement of the main result of [Oancea-K]. Use this to compute symplectic cohomology for subcritical Weinstein manifolds.

In the afternoon, we will discuss algebraic structures on symplectic cohomology.

1. Discuss the construction of operations on symplectic cohomology coming from moduli spaces of Riemann surface. Make sure to include a discussion of the BV operator. The construction of these operations is outlined in Section (8a) of [Seidel], which [Ritter] elaborates upon.
2. Define the product on symplectic cohomology by counting pairs of pants. Explain the proof of associativity, and the construction of the unit.
3. (Jo Nelson) Use the higher analogues, to define 

   Latex
   $S^1$

    equivariant symplectic cohomology. Introduce contact homology, and outline the construction of an isomorphism between 

   Latex
   $S^1$

    equivariant symplectic cohomology and contact homology.