Underreamer for increasing a bore diameter

What is claimed is: 1. An underreamer for increasing a diameter of a bore, comprising: a substantially cylindrical body; a cutter block movably coupled to the body, wherein a ratio of a height of the cutter block to an outer diameter of the body is between about 0.35:1 and about 0.50:1; a piston within the body and arranged and designed to move the cutter block in response to fluid pressure within a chamber in the body; a mandrel extending axially through the body from a position above the cutter block to a position below the cutter block; and a flow channel extending through the body from a position above the cutter block to a position below the cutter block and below the piston, the flow channel being radially between the mandrel and an outer surface of the body, the flow channel being in fluid communication with the chamber through a flow path that extends at least partially radially inward from the flow channel toward the chamber. 2. The underreamer of claim 1 , wherein the height of the cutter block is measured from a radially inner surface of the cutter block to a radially outer surface of the cutter block. 3. The underreamer of claim 1 , wherein the flow channel includes inner and outer radial surfaces both disposed radially between the mandrel and an outer surface of the body. 4. The underreamer of claim 1 , wherein the flow channel is circumferentially offset from the cutter block. 5. The underreamer of claim 1 , wherein the flow channel has a cross-sectional area between about 1 cm 2 and about 15 cm 2 . 6. The underreamer of claim 1 , wherein the flow channel is a plurality of flow channels each having a cross sectional area, and wherein a sum of the cross sectional areas of the plurality of flow channels is between about 3 cm 2 and about 45 cm 2 . 7. The underreamer of claim 1 , wherein an outer surface of the cutter block is positioned radially inward from or radially aligned with an outer surface of the body when the cutter block is in a retracted state, and wherein the outer surface of the cutter block is positioned radially outward from the outer surface of the body by a distance when the cutter block is in an expanded state. 8. The underreamer of claim 7 , wherein a ratio of the distance to the diameter of the body is between about 0.10:1 and about 0.35:1. 9. The underreamer of claim 8 , wherein the underreamer is adapted to increase the diameter of the wellbore by between about 30% and about 70% when the cutter block is in the expanded state. 10. The underreamer of claim 7 , wherein a ratio of the distance to the diameter of the body is between about 0.40:1 and about 0:50:1. 11. The underreamer of claim 7 , wherein a ratio of the distance to the diameter of the body is greater than about 0.35:1. 12. The underreamer of claim 1 , wherein a portion of the mandrel positioned radially inward from the cutter block is solid with no bore therethrough, and wherein a ratio of an outer diameter of the portion of the mandrel positioned radially inward from the cutter block to the diameter of the body is between about 1:5 and about 1:20. 13. The underreamer of claim 1 , wherein a retainer maintains the cutter block movably coupled to the body when the cutter block is in its expanded state. 14. The underreamer of claim 1 , the cutter block including a plurality of cutter blocks in corresponding pockets in the body, and wherein the flow channel is a plurality of flow channels, each of the plurality of flow channels being circumferentially offset from each pocket of the plurality of pockets and each cutter block of the plurality of cutter blocks. 15. The underreamer of claim 14 , wherein the plurality of flow channels extend axially from a position above the plurality of cutter blocks to a position below the cutter blocks, the plurality of flow channels defining a flow path configured to receive a full amount of fluid flowing through the body past the plurality of cutter blocks. 16. The underreamer of claim 14 , the plurality of cutter blocks being axially aligned and circumferentially offset with each other, and the plurality of flow channels being axially aligned and circumferentially offset with each other, at least a portion of a length of the plurality of flow channels further being axially aligned with the plurality of cutter blocks. 17. An underreamer for increasing a diameter of a bore, comprising: a substantially cylindrical body, wherein a flow channel extends at least partially axially through the body; a mandrel extending axially through the body, wherein the mandrel is solid and has no axial bore therethrough, and wherein the flow channel is disposed radially between the mandrel and an outer surface of the body; and a cutter block movably coupled to the body, the cutter block having an outer surface positioned radially inward from or radially aligned with the outer surface of the body when the cutter block is in a retracted state, the outer surface of the cutter block positioned radially outward from the outer surface of the body by a distance when the cutter block is in an expanded state, wherein a ratio of a height of the cutter block to a diameter of the body is between about 0.35:1 and about 0.50:1. 18. The underreamer of claim 17 , wherein a ratio of the distance to the diameter of the body is between about 0.10:1 and about 0.35:1. 19. The underreamer of claim 17 , wherein the flow channel is circumferentially offset from the cutter block. 20. The underreamer of claim 17 , wherein the flow channel is a plurality of flow channels each having a cross sectional area, and wherein a sum of the cross sectional areas of the plurality of flow channels is between about 3 cm 2 and about 45 cm 2 . 21. The underreamer of claim 17 , wherein the underreamer is adapted to increase the diameter of the wellbore by between about 30% and about 70% when the cutter block is in the expanded state. 22. The underreamer of claim 17 , wherein a retainer maintains the cutter block movably coupled to the body when the cutter block is in its expanded state. 23. A method for increasing a diameter of a bore, comprising: running an underreamer into a bore, the underreamer including a substantially cylindrical body having a mandrel and a flow channel extending at least partially axially therethrough, the flow channel being disposed radially between the mandrel and an outer surface of the body, the underreamer further including a cutter block movably coupled to the body; flowing a fluid through the flow channel and into a chamber disposed radially between the mandrel and the outer surface of the body, wherein flowing the fluid includes moving a sleeve disposed radially outward from the chamber to form a path of fluid communication between the flow channel and the chamber; increasing a pressure of the fluid; moving the cutter block from a retracted state to an expanded state, the cutter block having an outer surface positioned radially inward from or radially aligned with the outer surface of the body when the cutter block is in the retracted state, the outer surface of the cutter block positioned radially outward from the outer surface of the body by a distance when the cutter block is in the expanded state, wherein a ratio of a height of the cutter block to a diameter of the body is between about 0.35:1 and about 0.50:1; and increasing the diameter of the bore with the cutter block when the cutter block is in the expanded state. 24. The method of