Dehn Fillings of Knot Manifolds Containing Essential Twice-Punctured Tori

Steven Boyer, Universite du Quebec a Montreal, Quebec, Canada. Cameron McA. Gordon, University of Texas at Austin, Texas. Xingru Zhang, University at Buffalo, New York.

Chapters
1. Introduction
2. Examples
3. Proof of Theorems and
4. Initial assumptions and reductions
5. Culler-Shalen theory
6. Bending characters of triangle group amalgams
7. The proof of Theorem when $F$ is a semi-fibre
8. The proof of Theorem when $F$ is a fibre
9. Further assumptions, reductions, and background material
10. The proof of Theorem when $F$ is non-separating but not a fibre
11. Algebraic and embedded $n$-gons in $X^/epsilon $
12. The proof of Theorem when $F$ separates but is not a semi-fibre and $t_1^+ + t_1^- >
0$
13. Background for the proof of Theorem when $F$ separates and $t_1^+ = t_1^-=0$
14. Recognizing the figure eight knot exterior
15. Completion of the proof of Theorem when $/Delta (/alpha , /beta ) /geq 7$
16. Completion of the proof of Theorem when $X^-$ is not a twisted $I$-bundle
17. Completion of the proof of Theorem when ${/Delta }(/alpha ,/beta )=6$ and $d = 1$
18. The case that $F$ separates but not a semi-fibre, $t_1^+ = t_1^- = 0$, $d /ne 1$, and $M(/alpha )$ is very small
19. The case that $F$ separates but is not a semi-fibre, $t_1^+ = t_1^- = 0$, $d>1$, and $M(/alpha )$ is not very small
20. Proof of Theorem