MATRIX 2019 Interactions: Exercises

Revision as of 06:48, 7 January 2019

This page lists the exercises for consideration during the MATRIX 2019 Interactions meeting.

Participants are encouraged to work on the exercises and contribute solutions on the discussion page.

1 Surgery: high-d methods in low-d

1.1 Lecture 1: Normal maps and the surgery obstruction

1. Stability of vector bundles (Ex)
2. Normal maps - (non)-examples (Ex)
3. Immersing n-spheres in 2n-space (Ex)
4. Surgery obstruction, signature (Ex)
5. Surgery obstruction, Arf-invariant (Ex)

1.2 Lecture 2: Foundations of topological 4-manifolds

1.3 Lecture 3: Stable diffeomorphism and the Q-form Conjecture

1.4 Lecture 4: The surgery machine applied in low dimensions

1.5 Lecture 5: Topological concordance of classical knots: Where are we?

2 The (stable) Cannon Conjecture

2.1 Lecture 1: An introduction to 3-manifolds

1. Betti numbers of 3-manifolds (Ex)
2. Non-prime solvable fundamental groups (Ex)
3. Atoroidal 3-manifolds (Ex)
4. Three dimensional Heisenberg group (Ex)
5. Circle actions on 3-manifolds (Ex)

2.2 Lecture 2: An introduction to hyperbolic groups

1. Torsion-free solvable hyperbolic groups (Ex)
2. Fundamental groups of surfaces (Ex)
3. Minimal dimension of BG (Ex)
4. Extensions of groups (Ex)
5. Boundaries of Fuchsian groups (Ex)

2.3 Lecture 3: Topological rigidity

1. Euler characteristic as surgery obstruction (Ex)
2. Borel Conjecture for the 2-torus (Ex)
3. Farrell-Jones Conjecture for finite groups (Ex)
4. Computation of certain L-groups I (Ex)
5. Computation of certain L-groups II (Ex)

2.4 Lecture 4: L²-invariants

2.5 Lecture 5: The (stable) Cannon Conjecture

3 Invariants of knots from Heegaard Floer homology

3.1 Lecture 1: Heegaard diagrams

1. Simple closed curves in surfaces (Ex)

3.2 Lecture 2: Floer homology

3.3 Lecture 3: Knot Floer homology

3.4 Lecture 4: The Upsilon invariant

3.5 Lecture 5: Further applications