Memoirs of the American Mathematical Society 2008; 140 pp; softcover Volume: 194 ISBN10: 082184167X ISBN13: 9780821841679 List Price: US$69 Individual Members: US$41.40 Institutional Members: US$55.20 Order Code: MEMO/194/909
 The authors determine all hyperbolic \(3\)manifolds \(M\) admitting two toroidal Dehn fillings at distance \(4\) or \(5\). They show that if \(M\) is a hyperbolic \(3\)manifold with a torus boundary component \(T_0\), and \(r,s\) are two slopes on \(T_0\) with \(\Delta(r,s) = 4\) or \(5\) such that \(M(r)\) and \(M(s)\) both contain an essential torus, then \(M\) is either one of \(14\) specific manifolds \(M_i\), or obtained from \(M_1, M_2, M_3\) or \(M_{14}\) by attaching a solid torus to \(\partial M_i  T_0\). All the manifolds \(M_i\) are hyperbolic, and the authors show that only the first three can be embedded into \(S^3\). As a consequence, this leads to a complete classification of all hyperbolic knots in \(S^3\) admitting two toroidal surgeries with distance at least \(4\). Table of Contents  Introduction
 Preliminary lemmas
 \(\hat \Gamma_a^+\) has no interior vertex
 Possible components of \(\hat \Gamma_a^+\)
 The case \(n_1, n_2 > 4\)
 Kleinian graphs
 If \(n_a=4\), \(n_b \geq 4\) and \(\hat \Gamma_a^+\) has a small component then \(\Gamma_a\) is kleinian
 If \(n_a=4\), \(n_b \geq 4\) and \(\Gamma_b\)is nonpositive then \(\hat \Gamma_a^+\) has no small component
 If \(\Gamma_b\) is nonpositive and \(n_a=4\) then \(n_b \leq 4\)
 The case \(n_1 = n_2 = 4\) and \(\Gamma_1, \Gamma_2\) nonpositive
 The case \(n_a = 4\), and \(\Gamma_b\) positive
 The case \(n_a=2\), \(n_b \geq 3\), and \(\Gamma_b\) positive
 The case \(n_a = 2\), \(n_b > 4\), \(\Gamma_1, \Gamma_2\) nonpositive, and \(\text{max}(w_1 + w_2,\,\, w_3 + w_4) = 2n_b2\)
 The case \(n_a = 2\), \(n_b > 4\), \(\Gamma_1, \Gamma_2\) nonpositive, and \(w_1 = w_2 = n_b\)
 \(\Gamma_a\) with \(n_a \leq 2\)
 The case \(n_a = 2\), \(n_b=3\) or \(4\), and \(\Gamma_1,\Gamma_2\) nonpositive
 Equidistance classes
 The case \(n_b = 1\) and \(n_a = 2\)
 The case \(n_1 = n_2 = 2\) and \(\Gamma_b\) positive
 The case \(n_1 = n_2 = 2\) and both \(\Gamma_1, \Gamma_2\) nonpositive
 The main theorems
 The construction of \(M_i\) as a double branched cover
 The manifolds \(M_i\) are hyperbolic
 Toroidal surgery on knots in \(S^3\)
 Bibliography
